2017년 한국균학회 춘계학술대회 및 임시총회 한국균학회소식지 2017 KSM Annual International Conference

ISSN 2288-257X 제29권 1호 KSM Newsletter

■ 일 자 : 2017년 5월 24일(수)~26일(금) ■ 장 소 : 여수 디오션호텔/리조트 ■ 주 최 : (사)한국균학회 ■ 공동주관 : ‌ 전북대학교 2 경북대학교 미생물연구소 0 1 강원대학교 농업생명과학연구원 7 년 고려대학교 생명자원연구소 5 ■ 후 원 : ‌ 농림수산식품기술기획평가원 월 농촌진흥청 제 29 여수시 권 전라남도 1 전라남도문화관광재단 호

서울특별시 성북구 안암로 145 고려대학교 생명과학대학 서관 427호 Tel : 02-953-8355 Fax : 02-953-8359 E-mail : [email protected]

이 발표논문집은 농림수산식품기술기획평가원 지원을 받아 발간되었음. This conference proceeding was supported by the Korea Institute of Planning & Evaluation for Technology in Food, Agriculture, Forestry & Fisheries.

ISSN 2288-257X 제29권 1호

2017년 한국균학회 춘계학술대회 및 임시총회 2017 KSM Annual International Conference

■ 일 자 : 2017년 5월 24일(수)~26일(금) ■ 장 소 : 여수 디오션호텔/리조트 ■ 주 최 : (사)한국균학회 ■ 공동주관 : ‌ 전북대학교 경북대학교 미생물연구소 강원대학교 농업생명과학연구원 고려대학교 생명자원연구소 ■ 후 원 : ‌ 농림수산식품기술기획평가원 농촌진흥청 여수시 전라남도 전라남도문화관광재단

한국균학회소식지 제29권 1호 2017. 5 KSM Newsletter

임원진 명단(2017) ● 2017년 춘계학술대회 및 임시총회 회장 : 신 광 수 차기회장 : 김 기 덕 2017 KSM Annual International Conference 수석부회장 : 서 건 식 부회장 : 전 형 권 김 영 동 ◈ S1 Special Lectures ············································································9 운영위원장 : 천 세 철 ◈ S2 Invited Plenary Lecture ·····························································1 5 재무간사 : 김 창 무 사업간사 : 가 강 현 ◈ S3 Fungal metabolites and pathogenesis ··································1 9 학술정보위원장 : 윤 봉 식 ◈ S4 Poster Oral Presentation ·························································2 5 학술간사 : 한 갑 훈 정보간사 : 홍 성 기 ◈ S5 Fungal Molecular Biology ························································2 7 해외간사 : 최 영 준 ◈ S6 Fungal Ecology and Taxonomy ·············································3 3 Mycobiology 편집위원장 : 김 대 혁 편집간사 : 김 정 미 ◈ Poster sessions ················································································3 9 김 창 무 노 현 수 상 미 경 ● 한국균학회 임시총회 및 한국균학회 소식 이 정 관 이 향 범 1. 학회 소식 ······························································································9 3 임 영 운 정 원 희 2. 국제학술대회 소식 및 회원동정 ····························································9 4 최 재 혁 3. 회의록 ···································································································9 6 홍 승 범 한국균학회지 편집위원장 : 엄 안 흠 4. 2016년도 유동자산 현황 및 회계 결산서 ············································105 편집간사 : 가 강 현 5. 2017년도 예산 ·····················································································108 이 동 혁 정 희 영 6. 감사서 ·································································································109 최 영 준 7. 임원, 간사 및 위원회 명단 ··································································110 기금위원장 : 노 재 영 기금간사 : 이 시 원 8. 회원 명단 ····························································································112 균학용어심의위원장 : 석 순 자 9. 신입회원 명단 ·····················································································128 균학용어심의위간사 : 최 효 원

한 국 균 학 회 소 식 지 제29권 1호

2017년 5월 19일 인쇄 / 2017년 5월 24일 발행

• 발행인 : 신광수 • 편집인 : 윤봉식, 한갑훈, 천세철 • 발 행 : 사단법인 한국균학회 서울특별시 성북구 안암로 145 고려대학교 생명과학대학 서관 427호 Tel: 82-2-953-8355 / Fax: 82-2-953-8359 E-mail: [email protected] / Homepage: www.mycology.or.kr • 인 쇄 : 한림원(주) 서울특별시 중구 퇴계로51길 20 넥서스타워 12층 Tel: 02-42273-4201, 4204, 4206 / Fax: 02-2266-9083, 9338 E-mail: [email protected] / Homepage: www.hanrimwon.com

●●●󰠛2017년 춘계학술대회 및 임시총회 일정󰠛●●●

1. 임시총회 회순 개회사 및 국민의례 / 운영위원장 회장 인사 / 회장 업무경과 보고 / 운영위원장 감사결과 보고 / 감사 재무업무 보고 / 재무간사 편집위원회 보고 / 편집위원장 학술정보위원회 보고 / 학술정보위원장 균학용어심의위원회 보고 / 균학용어심의위원장 기금위원회 보고 / 기금위원장 사업업무 보고 / 사업간사 해외업무 보고 / 해외간사 안건 및 기타 토의 / 회장 공지사항 / 운영위원장

2. 학술발표 진행위원 회장 : 신광수 / 차기회장 : 김기덕 / 부회장 : 서건식, 전형곤, 김영동 운영위원장 : 천세철 / 학술정보위원장 : 윤봉식 / 편집위원장 : 김대혁, 엄안흠 기금위원장 : 노재영 / 균학용어심의위원장 : 석순자 / 학술간사 : 한갑훈 사업간사 : 가강현 / 재무간사 : 김창무 / 해외간사 : 최영준

3. 임시총회 일정

5월 25일(목) 13:30 - 14:00 General Meeting of The Korean Society of Mycology

4. 장소 : 여수 디오션호텔 그랜드볼룸 인사말

친애하는 한국균학회 회원께

안녕하십니까? 춥고 삭막한 땅에서 여린 새싹들이 고개를 내밀던 계절이 엊그제 같은데 벌써 눈을 뜨니 신록 이라고 하는 계절이 짙어지고 있습니다. 이 좋은 계절에 아시는 바와 같이 한려수도의 기점을 이루는 쪽빛바다 여수에서 5월 24일부터 26일까지 2017년도 춘계 학술대회가 개최될 예정입니다. 학술대회 준비에 노고를 아끼지 않으 신 김종국 전임회장님, 이윤수 전임회장님, 김기덕 차기회장님, 천세철 운영위원장님, 윤봉식 학술위원장님, 김미정 사무국장님을 비롯하여 일일이 열거하지는 못했지만 애써주신 모든 임원 분들께 감사의 말씀을 전합니다. 이번 학술대회에서는 전임 회장님이셨던 김홍기 교수님과 김완규 박사님의 정년을 기념하는 기조강연이 있을 예정이고, 국제적으로 저명한 학자이신 네덜란드 CBS의 Robert Samson 박 사님, 일본 Ibarakki 대학의 Kazuhiko Narisawa 교수님 및 미국 Wisconsin-Madison 대학의 Jae-Hyuk Yu 교수님의 훌륭한 강연이 계획되어 있습니다. 이밖에도 저명한 국내 학자분들의 주옥같은 강연이 진행될 예정이오니 부디 많이 참석하셔서 전공에 대한 지식 확충과 다양한 교류 및 아름다운 여수의 풍광을 만끽하는 정신적으로나 육체적으로 풍요로워지는 계기가 되 시기를 바랍니다. 강연을 해주실 모든 연사분께 다시한번 감사의 말씀을 드립니다. 회원 여러분의 끊임없는 사랑과 격려 덕분에 한국균학회는 지속적인 발전을 거듭하고 있습니 다. 지난 2016년에도 김종국 회장님과 엄안흠 국문지편집위원장님 및 집행부 임원님들의 수고 로 숙원사업이었던 한국균학회지가 연구재단 등재지로 승격되는 성과를 올렸습니다. 학회지의 질적 및 양적 향상을 위해 전자저널 시스템을 도입하였으며, 곧 영문지도 저명한 해외 출판사 와 협약하여 전자저널 시스템으로 운영할 예정입니다. 금년에도 이번 춘계학술대회를 필두로 하여 7월 5일과 6일 양일간 가야산 국립공원에서 균류 채집회 및 하계 학술심포지움이 개최될 예정이며, 11월 2일과 3일에는 저희 학회가 주관하는 한국미생물학회연합 국제학술대회가 일산 킨텍스에서 개최될 예정입니다. 이 모든 행사는 회원 여러분의 관심과 격려가 없이는 결코 성공적으로 개최될 수 없다고 생각합니다. 부디 회원들께 서 적극적으로 참석하시고 격려하여 주셔서 한국균학회가 더욱 발전하는 계기를 마련해주시기 바랍니다. 회원님들의 건강과 가내에 평온함이 가득하기를 기원합니다. 아름다운 자연을 보유하고 있는 호국충절의 고장인 여수에서 뵙겠습니다.

한국균학회 회장 신광수 올림

- 6 - 행사 일정

2017. 5. 24 (Wed)~26 (Fri), The Ocean Resort, Yeosu, Korea May 24 (Wed), 2017 18:00-20:00 Mixer (Board members, Committee members, Speakers, Chair persons)

May 25 (Thu), 2017 10:00-10:50 Committee Discussion 10:50-11:40 Board Meeting 11:40-12:30 Lunch 12:30-13:10 Registration, Poster preparation 13:10-13:30 Opening Ceremony 13:30-14:00 General Meeting Session I: Special Lectures (Chair: Jong-Guk Kim, Kyungpook Nat’l Univ) Hong-Gi Kim (Chungnam Nat’l Univ) 14:00-14:30 Molecular markers and their application for detection of major target Phytophthora species in quarantine Wan-Gyu Kim ( Nat’l Institute of Agricultural Sciences) 14:30-15:00 Retrospect and prospect on development of Korean Society of Mycology 15:00-15:20 Break Session II: Invited Plenary Lecture (Chair: Seung-Beom Hong, Nat’l Institute of Agricultural Sciences) Robert A. Samson (CBS, Netherlands) 15:20-16:00 Advances in the classification and phylogeny of the genera Aspergillus, Penicillium and Talaromyces Session III: Fungal Metabolites and Pathogenesis (Chair: Sang-Yeob Lee, Nat’l Institute of Agricultural Sciences) Ki-Hyun Kim (Sungkyunkwan Univ) 16:00-16:30 Discovery of new bioactive metabolites from Korean wild mushrooms Kazuhiko Narisawa (Ibarakki Univ, Japan) 16:30-17:00 A dark septate endophyte Veonaeopsis simplex Y34 alters the root-associated microbial communities and suppresses Fusarium crown and root rot disease of tomato Session IV: Poster Oral Presentation (Chair: Bong-Sik Yun, Chonbuk Nat’l Univ) 17:00-17:30 A-31) Sun Jeong Jeon (Chonnan Nat'l Univ), C-7) Myeongjin Jo (Chonbuk Nat'l Univ) C-16) Yoon-Ju Lee (Chonbuk Nat'l Univ) 17:30-18:30 Poster session (Break) 18:30-20:30 Welcome reception

May 26 (Fri), 2017 08:50-09:30 Registration Session V: Fungal Molecular Biology (Chair: Kap-Hoon Han, Woosuk Univ) Chang-Young Hong (Nat’l Institute of Forest Science) 09:30-10:00 In vivo modification of synthetic lignin by Phanerochaete chrysosporium and molecular biological approach of its related enzymes Jae-Hyuk Yu (Univ of Wisconsin-Madison, USA) 10:00-10:30 Genetics and molecular biology of developmental competence in Aspergillus 10:30-10:40 Break Session Ⅵ: Fungal Ecology and Taxonomy (Chair: Jae-Sun Hur, Sunchon Nat’l Univ) Sook-Young Park (Sunchon Nat’l Univ) 10:40-11:10 Production and activity of cristazarin in the lichen-forming fungus Cladonia metacorallifera Chang-Sun Kim (Korea Nat’l Arboretum) 11:10-11:40 Taxonomic studies of Korean wild mushrooms in Korea National Arboretum (KNA) 11:40-12:00 Closing ceremony (Poster award)

- 7 -

S1 Special Lectures May 25(Thu.), 14:00-15:00, The Ocean Hotel, Grand Ballroom

Chair : Jong-Guk Kim (Kyungpook Nat’l Univ)

S1-1 14:00-14:30 Molecular markers and their application for detection of major target Phytophthora species in quarantine Hong-Gi Kim (Chungnam Nat’l Univ)

S1-2 14:30-15:00 Retrospect and prospect on development of Korean Society of Mycology Wan-Gyu Kim (Nat’l Institute of Agricultural Sciences)

∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S1-1

Molecular markers and their application for detection of major target Phytophthora species in quarantine

Hong Gi Kim* Department of Applied Biology, Chungnam National University, Daejeon, 34134, Korea *Email: [email protected]

DNA sequence analysis of Ypt1 (ras-related protein) gene with 45 Phytophthora species represented low intra-species genetic variation and high inter-species variation. Further, through alignment between twelve of the Korean quarantine Phytophthora species and their closely related species, each of the DNA variation sites for development of species-specific primers was selected. Species-specific primers based on DNA sequences of the Ypt1 gene amplified 70 to 400 bp PCR products for twelve plant quarantine Phytophthora species. All primer sets yielded the exact predicted PCR product size in testing with each target pathogen DNA but not in the other 22 Phytophthora species and 15 phytopathogenic fungi species using conventional PCR. The primer sets also represented only the species-specific amplification curve on real- time PCR on each target pathogen DNA. The detection limit of species-specific primer sets was 10 to 100 times more sensitive for real-time PCR compared to that of conventional PCR, which was 1 to 10 pg/㎕. The nested PCR with species-specific primers showed a detection limit about 10 times greater than that of single-round PCR. A multiplex PCR using a combination of species-specific primer sets can be used for detection and identification of two to three Phytophthora species, simultaneously. Mycelium DNA of Phytophthora species grown on semi-selective V8 media from diseased plants was rapidly extracted using NaOH, and fast and accurate identification of living pathogens was carried out in plants by using species-specific primers. Conventional PCR against pathogen DNA extracted from arti- ficially infected plants resulted in a species-specific PCR product. Further, a species-specific amplification curve was confirmed using real-time PCR. Additionally, identification of the pathogen through analysis of partial Ypt1 DNA sequences amplified by universal primers was performed successfully by phylogenetic tree analysis using the sequences of Phytophthora species. The present study shows that application of a species-specific primer using the rapid DNA extraction method with NaOH for Phytophthora species detection, nested PCR, and multiplex PCR may be simply adaptable for identification and diagnosis of Phytophthora species as a very useful tool in plant quarantine.

- 11 - ∙∙∙ 심포지엄 발표 ∙∙∙

✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠ 2017년도 한국균학회 춘계학술대회 ✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠✠

S1-1 연사 약력

1. 인적사항 성 명 김 홍 기 생년월일 1952년 3월 15일 소속기관 충남대학교 응용생물학과 직 위 교 수 전화번호 042-821-5768 팩스번호 042-823-8679 연 락 처 이동전화 010-2585-5322 전자메일 [email protected]

2. 학력 / 경력 연도 학교/기관 전공/직위 학위/비고 1974 충남대학교 농과대학 농학 농학사 1986 충남대학교 대학원 식물병리학 농학박사 1986-현재 충남대학교 농과대학 교수 1990-1991 University of Florida 방문교수 1994-1995 University of Florida 초빙교수 2010 한국균학회 회장 2016-현재 한국균학회 윤리위원장

3. 주요연구실적

Song, J. Y., Seo, M. W., Kim, S. I., Nam, M. H., Lim, H. S., and Kim, H. G. (2014). Genetic diversity and pathogenicity of Cylindrocarpon destructans isolates obtained from Korean Panax ginseng. Mycobiology 42, 174-180. Schwelm, A., Fogelqvist, J., Knaust, A., Jülke, S., Lilja, T., Bonilla-Rosso, G., Karlsson, M., Shevchenko, A., Dhandapani, V., Choi, S, R., Park, J, Y., Lim, Y, P., and Kim, H. G. (2015). The Plasmodiophora brassicae genome reveals insights in its life cycle and ancestry of chitin syntheses. Scientific reports 5, 11153. Choi, J, S., Yang, S, G., Song, J, Y and Kim, H, G. (2014). Development of species-specific primers for Plasmo- diophora brassicae, clubroot pathogen of Kimchi cabbage. Research in plant disease 20, 21-24. 송정영, 김나래, 남명현, 박범진, 황의일, 최종명, 김홍기. (2013). 미산성 차아염소산수의 식물병원균류에 대한 살균 효과. 한국균학회지 41, 274-279. 김나래, 최유리, 서문원, 송정영, 김홍기. (2016). 국내 식물검역대상 Phytophthora pinifolia 의 PCR 검출을 위한 종 특이적 마커 개발. 한국균학회지 44, 103-107. 특허 과수류, 또는 묘목에서 발생하는 Phytophthora속 균주를 검출하기 위한 중합효소연쇄반응의 프라이머, 이를 이용한 검출키트 및 방법(2014) 등 20건 저서 균류생물학, 2006, 월드사이언스(역서) 등 11권

- 12 - ∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S1-2

Retrospect and prospect on development of Korean Society of Mycology

Wan-Gyu Kim* Agricultural Microbiology Division, National Institute of Agricultural Sciences, Wanju 55365, Korea *Email: [email protected]

The Korean Society of Mycology (KSM) was founded in 1972 to develop mycology and related sciences and promote friendship among the members of the KSM. The KSM has not only contributed immensely to the development of the nation’s mycological research, but has emerged as an internationally known society since its inception. The initial membership of the society was less than 100, but it increased to 429 in 2016. In 2006, however, there were 530 members in the society, and over 100 members have dwindled for 10 years and is expected to decrease in the future. Therefore, the society needs a measure to increase membership. For the sake of international information exchange, the KSM held 12 Korea-China joint seminars for mycology from 1993 to 2016 and four Korea-Japan joint seminars for mycology from 2010 to 2016. In addition, the society held successfully Asian Mycological Congress in 1998 and 2011. The society holds an annual conference with academic events in spring and an international meeting with the Federation of Korean Microbiological Societies in autumn. Also, the society conducts a workshop and a symposium with fungal collection in mountain area in summer. The KSM publishes quarterly two learned journals Mycobiology and Korean Journal of Mycology every year and semiannually KSM Newsletter. The Mycobiology contains research articles written in English and was registered in world-famous databases SCOPUS in 2011, PubMed Central in 2012 and SCIE in 2013. The Korean Journal of Mycology contains research articles written in Korean or English and was registered in Korea Citation Index in 2016. The KSM Newsletter contains the member’s news and schedules, plans, conference data, etc. of the society, and abstracts for oral and poster presentations conducted in the society meeting. In 1989, the budget allocated to the KSM was 18 million won, but the annual budget of the society was 171 million won in 2016, which is expected to increase continuously in the future. To further develop the KSM, it needs to improve the quality of issuing academic journals, obtain more membership, increase the exchange of research information through domestic and international meetings and popularize mycological studies through workshops and symposia with fungal collection.

- 13 - ∙∙∙ 심포지엄 발표 ∙∙∙

S1-2 연사 약력

1. 인적사항 성 명 김완규 생년월일 1956. 2. 19. 소속기관 농촌진흥청 국립농업과학원 직 위 농업연구관 전화번호 031-291-9468 팩스번호 063-238-3834 연 락 처 이동전화 010-6291-9468 전자메일 [email protected]

2. 학력 / 경력 연도 학교/기관 전공/직위 학위/비고 1975-1982 충남대학교 농학 학사 1982-1984 충남대학교 식물병리학 석사 1984-1989 충남대학교 식물병리학 박사 1985-2002 농업과학기술원 농업연구사 2002-2010 농업과학기술원, 국립농업과학원 농업연구관(실장) 2010-2011 국립농업과학원 작물보호과장 2011-2016 국립농업과학원 농업미생물과장 2016-현재 국립농업과학원 농업연구관 공로연수 1986-1987 일본 호구리구, 쥬고구농업시험장 연수연구원 1990 덴마크 종자병학연구소 방문연구원 1991 영국 국제균학연구소 연수연구원 2000-2001 미국 미주리대학교 공동연구원 2012 한국식물병리학회 부회장 2013 한국균학회 회장

3. 주요연구실적

1. In vitro antagonistic effects of Bacilli isolates against four soilborne plant pathogenic fungi. 2008. Plant Pathol. J. 24:52-57. 2. Occurrence of anthracnose on peach tree caused by Colletotrichum species. 2008. Plant Pathol. J. 24:80-83. 3. Occurrence of Dumontinia tuberosa in Korea. 2009. Mycobiology 37:155-157. 4. Occurrence of anthracnose on highbush blueberry caused by Colletotrichum species in Korea. 2009. Mycobiology 37:310-312. 5. Occurrence of Fuligo gyrosa causing slime mold of Oriental melon. 2009. Mycobiology 37:238-239. 6. Morphology, molecular phylogeny and pathogenicity of Colletotrichum panacicola causing anthracnose of Korean ginseng. 2011. Plant Pathol. J. 27:1-7. 7. First report of internal fruit rot of sweet pepper in Korea caused by Fusarium lactis. 2011. Plant Disease 95:1476.

- 14 - S2 Invited Plenary Lecture May 25(Thu.) 15:20-16:00, The Ocean Hotel, Grand Ballroom

Chair : Seung-Beom Hong (Nat’l Institute of Agricultural Sciences)

S2-1 15:20-16:00 Advances in the classification and phylogeny of the genera Aspergillus, Penicillium and Talaromyces Robert A. Samson (CBS, Netherlands)

∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S2-1

Advances in the classification and phylogeny of the genera Aspergillus, Penicillium and Talaromyces

Robert A Samson Westerdijk Fungal Biodiversity Institute Uppsalalaan 8, 3584CT Utrecht, The Netherlands

The genera Aspergillus, Penicillium and Talaromyces contain important species with a high economic and social impact. Many species are studied by applied mycologists because they can contaminate our food and houses and can produce dangerous mycotoxins. On the other hand many species are used for many centuries for the fermentation of food and beverages, whereas they can serve in the biotechnology for the production of medicines, enzymes and other products. The taxonomy of the genera has been based for many years on phenotypic characters, but the current taxonomic research is using a polyphasic approach combining phenotypic, genotypic and chemical characters. Particularly in the last five years the taxonomic and phylogenetic studies have been increased and demonstrate that many well-known species are representing cryptic taxa. The number of taxa in the genera also has been increased and at the moment more than 350 taxa are described and accepted in Aspergillus, 420 taxa in Penicillium and 120 taxa in Talaromyces and it is expected that these numbers will increase in the future. In this presentation examples of new taxonomies in Aspergillus section Nidulantes and section Aspergillus will be discussed. Other examples are the solitary phialidic species in Penicillium section Torulomyces and new species in Talaromyces. In Aspergillus several sections have not yet been taxonomically elucidated. Problematic are species boundaries where morphology and molecular data are not congruent and approaches for the research of species delimitation will be discussed.

- 17 - ∙∙∙ 심포지엄 발표 ∙∙∙

S2-1 Curriculum Vitae

Name Robert A. Samson Nationality The Netherlands

Senior mycologist at Applied and Affiliation Westerdijk Fungal Biodiversity Institute Position Industrial Mycology

Telephone +31 30 212-2656 Fax

E-mail [email protected]

(Bs, Master, PhD) Botany, University of Utrecht. Education (Post Doc) Universities of Austin

- Has worked as scientist at the Westerdijk Fungal Biodiversity Institute from 1970. - Secretary General of the International Union of Microbiological Societies Experience - Chairman of the IUMS International Commission on Penicillium and Aspergillus - Vice Chairman and member of the IUMS International Commission on Food Mycology - Chairman of the IUMS International Commission on Indoor Fungi

- RA Samson, ES Hoekstra, JC Frisvad. 2004. Introduction to food-and airborne fungi. CBS-KNAW Fungal Biodiversity Centre. - RA Samson. 1974. Paecilomyces and some allied hyphomycetes. Stud. Mycol. 6, 1-119 - RA Samson, HC Evans, JP Latgé. 2013. Atlas of entomopathogenic fungi. Springer Science & Business Media Main - JC Frisvad, RA Samson. Polyphasic taxonomy of Penicillium subgenus Penicillium. A guide to Scientific identification of food and air-borne terverticillate Penicillia and their mycotoxins. Studies in Publication mycology 49 (1), 1-174 - Samson RA & Houbraken J (eds) (2011). Phylogenetic and taxonomic studies on the genera Penicillium and Talaromyces. Studies in Mycology 70, 184 pp. - Samson RA, Visagie CM and Jos Houbraken J (2014). Species diversity in Aspergillus, Penicillium and Talaromyces. Studies in Mycology 78, 458 pp - Samson, RA (2016) Diversity and taxonomy of Indoor Fungi 1. Studies in Mycology 84, 224 pp

- 18 - S3 Fungal Metabolites and Pathogenesis May 25(Thu.) 16:00-17:00, The Ocean Hotel, Grand Ballroom

Chair : Sang-Yeob Lee (Nat’l Institute of Agricultural Sciences)

S3-1 16:00-16:30 Discovery of new bioactive metabolites from Korean wild mushrooms Ki-Hyun Kim (Sungkyunkwan Univ)

S3-2 16:30-17:00 A dark septate endophyte Veonaeopsis simplex Y34 alters the root-associated microbial communities and suppresses Fusarium crown and root rot disease of tomato Kazuhiko Narisawa (Ibarakki Univ, Japan)

∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S3-1

Discovery of new bioactive metabolites from Korean wild mushrooms

Ki Hyun Kim* School of Pharmacy, Sungkyunkwan University, Suwon, Korea; *Email: [email protected]

A mushroom is the fleshy, spore-bearing fruiting body of a fungus, typically produced above ground on soil or on its food source. Wild and cultivated mushrooms contain a huge diversity of biomolecules with nutritional and/or medicinal properties. Due to these properties, they have been recognized as functional foods, and as a source for the development of medicines and nutraceuticals. Recent studies have revealed that fruiting bodies, mycelia and spores accumulate a variety of bioactive metabolites with immunomodulatory, cardiovascular, liver protective, anti-fibrotic, anti-inflammatory, anti-diabetic, anti-viral, antioxidant, antitumor, and antimicrobial properties. The number of different mushroom species on earth is estimated at 140,000, of which may be only 10% are known. Meanwhile, of those approximately 14,000 species that we know today, about 50% are considered to possess varying degrees of edibility, more than 2,000 are safe, and about 700 species are known to possess significant pharmacological properties. On the other hand, it has been known that there are approximately 1,600 mushroom species in Korea, of which about 330 species are classified to edible and/or medicinal mushrooms. However, there are only dozens of mushroom species to be used practically in Korea. Recently, mushrooms have been attracting a great deal of interest in many areas of foods and biopharmaceuticals. However, in spite of the diversity of these intriguing natural sources, there are few systematic researches of Korean mushrooms for their application and bioactive metabolites. During the course of our continuing search for structurally interesting and bioactive metabolites from Korean wild mushrooms, we have collected a plethora of endemic mushroom species in the mountainous regions during the hot humid summer, and prepared their extracts for their interesting metabolites. Herein, the isolation, structural elucidation, and biological evaluation of these mushroom metabolites are described.

- 21 - ∙∙∙ 심포지엄 발표 ∙∙∙

S3-1 연사 약력

1. 인적사항 성 명 김 기 현 생년월일 1983년 1월 9일 소속기관 성균관대학교 직 위 조교수 전화번호 031-290-7700 팩스번호 031-290-7730 연 락 처 이동전화 010-8523-3265 전자메일 [email protected]

2. 학력 / 경력 연도 학교/기관 전공/직위 학위/비고 2001-2005 성균관대학교 약학 학사 2005-2007 성균관대학교 천연물화학 석사 2007-2011 성균관대학교 천연물화학 박사 2011-2012 성균관대학교 천연물화학 박사후연구원 2012-2012 Harvard University 천연물화학 post-doc 2012-2014 Harvard Medical School 천연물화학 post-doc 2014- 성균관대학교 약학대학 조교수

3. 주요연구실적

1. Linear Peptides Are the Major Products of a Biosynthetic Pathway That Encodes for Cyclic Depsipeptides. Org. Lett. 2017, in press. 2. Macrotermycins A-D, Glycosylated Macrolactams from a Termite-Associated Amycolatopsis sp. M39. Org. Lett. 2017, 19, 1000-1003. 3. Anti-inflammatory activity of the sclerotia of edible fungus, Poria cocos Wolf and their active lanostane triterpenoids. J. Funct. Foods 2017, in press. 4. Dynamic metabolic exchange governs a marine algal-bacterial interaction. eLife 2016, 5, e17473. 5. Termisoflavones A-C, Isoflavonoid Glycosides from Termite-Associated Streptomyces sp. RB1. J. Nat. Prod. 2016, 79, 3072-3078. 6. A new cerebroside from the fruiting bodies of Hericium erinaceus and its applicability to cancer treatment. Bioorg. Med. Chem. Lett. 2015, 25, 5712-5715. 7. Iridoid Glycosides from Barleria lupulina. J. Nat. Prod. 2015, 78, 320-324. 8. Natalamycin A, an ansamycin from a termite-associated Streptomyces sp. Chem. Sci. 2014, 5, 4333-4338.

- 22 - ∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S3-2

A dark septate endophyte Veonaeopsis simplex Y34 alters the root-associated microbial communities and suppresses Fusarium crown and root rot disease of tomato

Yong Guo, Tomoyasu Nishizawa, Hiroyuki Ohta and Kazuhiko Narisawa* Ibaraki University College of Agriculture, 3-21-1 Chuo, Ami, Inashiki, Ibaraki 300-0393 Japan; *Email: [email protected]

Fusarium crown and root rot (FCRR) of tomato caused by Fusarium oxysporum f. sp. radicis-lycopersici (FORL) is a common disease in worldwide. Our previous study showed the suppressive role of a dark septate endophyte Veonaeopsis simplex Y34 against Fusarium disease of Chinese cabbage, suggesting a potential bio-control agent to suppress FCRR of tomato. The aims of this study were to: 1) examine the suppressive potential of V. simplex Y34 against the FCRR of tomato; 2) explore the effect of V. simplex Y34 on root-associated microbial community and how such effect links to the suppression of the disease. Two cultivars of tomato, House-momotaro and sicily-anrujo, were used in this experiment. The solid-cultures of V. simplex Y34, was applied in a nursery pot to assess the bio-control of the disease. Results showed that V. simplex Y34 decreased the disease severity of FCRR for the two cultivars. The colonization of V. simplex Y34 in root was determined by re-isolation and terminal-restriction fragment length polymorphism (T-RFLP) analysis targeting fungal ITS-LSU region. Moreover, the application of the endophyte increased the diversity of fungal community in root-endosphere and decreased the colonization of FORL in the root. The T-RFs- based multivariate analysis showed that the fungal communities in root-endosphere with inoculation of V. simplex Y34 were clustered away from those of non-inoculation, suggesting a correlation between the root-endospheric community and disease incidence. In conclusion, this study indicates that the application of V. simplex Y34 altered the diversity, evenness and structure of root-endospheric fungal community by the endosymbiosis of endophyte, and decreased pathogen colonization in the root, which opens a new way to control of tomato FCRR disease.

- 23 - ∙∙∙ 심포지엄 발표 ∙∙∙

S3-2 Curriculum Vitae

Name Kazuhiko Narisawa Nationality Japanese Affiliation Ibaraki University Position Professor Telephone +81-299-888-8667 Fax +81-299-888-8667 E‐mail [email protected] 1993 - Ph.D. in Plant Pathology and Mycology, University of Tsukuba, Tsukuba, Japan. Thesis: "Mating type of isolates derived from the spermogonial state of Puccinia coronata var. coronata." Education 1990 - M.Sc. in Plant Pathology and Mycology, University of Tsukuba, Tsukuba, Japan. Thesis: "Axenic culture of the spermogonial and aecial state of Puccinia coronata var. coronata." 2013 - present - Professor at College of Agriculture, Ibaraki University, Japan. 2006 - 2013 - Associate Professor at College of Agriculture, Ibaraki University, Japan. 1999 - 2006 - Associate scientist at Biological Control Laboratory, Plant Biotechnology Institute, Experience IBARAKI Agricultural Center, Ibaraki, Japan. 1999 - 2001 - Postdoctoral fellow at University of Alberta, Edmonton, Alberta, Canada. 1993 - 1999 - Assistant scientist at Biological Control Laboratory, Plant Biotechnology Institute, IBARAKI Agricultural Center, Ibaraki, Japan. 1) Usui E, Takashima Y, Narisawa K. Cladophialophora inabaensis sp. nov., a New Species among the Dark Septate Endophytes from a Secondary Forest in Tottori, Japan. Microbes and Environments 31:357-360, 2016. DOI: 10.1264/jsme2.ME16016 2) Nishizawa, T., Miura, T., Harada, C., Guo, Y., Narisawa, K., Ohta, H., ... & Shirai, M. (2016). Complete genome sequence of Streptomyces parvulus 2297, integrating site-specifically with actinophage R4. Genome Announcements, 4(4), e00875-16. 3) Ohshima S, Sato Y, Fujimura R, Takashima Y, Hamada M, Nishizawa T, Narisawa K, Ohta H. Mycoavidus cysteinexigens gen. nov., sp. nov., an endohyphal bacterium isolated from a soil isolate of the fungus Mortierella elongate. Int J Syst Evol Microbiol 2052-2057: 2016 doi: 10.1099/ijsem.0.000990 Main 4) Amasya A, Narisawa K, Watanabe M.Analysis of Sclerotia-Associated Fungal Communities in Scientific Cool-Temperate Forest Soils in North Japan. Microbes and Environments 30: 113-116., 2015. Publication DOI: 10.1264/jsme2.ME14135 5) Takashima Y, Narisawa K, Hidayat I, and Rahayu G. First Report on Fungal Symbionts of Lycopodiaceae Root from Mount Gede Pangrango National Park Indonesia. Journal of Developments in Sustainable Agriculture 9(2) 81-88: 2014. 6) Fujimura R, Nishimura A, Ohshima S, Sato Y, Nishizawa T, Oshima K, Hattori M, Narisawa K, Ohta H. Draft genome sequence of the betaproteobacterial endosymbiont associated with the fungus Mortierella elongata FMR23-6. Genome Announc. 2(6):e01272-14. doi:10.1128/geno- meA.01272-14. 2014. 7) Diene, O., Sakagami, N. and Narisawa K. The role of dark septate endophytic fungal isolates in the accumulation of cesium by chinese cabbage and tomato plants under contaminated environments. PLoS ONE, 9(10): e109233 2014. DOI: 10.1371/journal.pone.0109233

- 24 - S4 Poster Oral Presentation May 25(Thu.) 17:00-17:30, The Ocean Hotel, Grand Ballroom

Chair : Bong-Sik Yun (Chonbuk Nat’l Univ)

A-31 17:00-17:10 Two undescribed species belonging to Chaetomiaceae: Chaetomium trigonosporum and Amesia nigricolor Sun Jeong Jeon, Tham Thi Duong and Hyang Burm Lee* (Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea)

C-7 17:10-17:20 Function analysis of a hypovirus-regulated septin Cdc11 ortholog, CpSep1, from the chestnut blight fungus Cryphonectria parasitica Myeongjin Jo1, Yo-Han Ko1, Kum-Kang So1, Jyotiranjan Bal1, Jeesun Chun1, Jung-Mi Kim2, and Dae-Hyuk Kim1* (1*Department of Molecular Biology, Department of Bioactive Material Sciences, Institute for Molecular Biology and Genetics, Chonbuk National University, Jeonju, Chonbuk 54896, Korea, 2Department of Bio-Environmental Chemistry, Institute of Life Scienceand Natural Resources, Wonkwang University, Iksan, Chonbuk 54538, Korea)

C-16 17:20-17:30 Isolation of four new compounds from the culture broth of Irpex consors Yoon-Ju Lee1, Ji-Yul Kim1, E-Eum Woo1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1* (1Division of Biotechnology, Chonbuk National University, 2Rural Development Administration)

S5 Fungal Molecular Biology May 26(Fri.) 10:00-10:30, The Ocean Hotel, Grand Ballroom

Chair : Kap-Hoon Han (Woosuk Univ)

S5-1 09:30-10:00 In vivo modification of synthetic lignin by Phanerochaete chrysosporium and molecular biological approach of its related enzymes Chang-Young Hong (Nat’l Institute of Forest Science)

S5-2 10:00-10:30 Genetics and molecular biology of developmental competence in Aspergillus Jae-Hyuk Yu (Univ of Wisconsin-Madison, USA)

∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S5-1

In vivo modification of synthetic lignin by Phanerochaete chrysosporium and molecular biological approach of its related enzymes

Chang-Young Hong, Su-Yeon Lee, Myungkil Kim*

Division of Wood Chemistry & Microbiology, Department of Forest Products, National Institute of Forest Science , Seoul, 02455, Republic of Korea; *Email: [email protected]

Lignin, an aromatic macromolecule that is highly abundant in nature, has been recognized as a candidate source for replacing petroleum-derived chemicals. Recently, the concept of lignin modification using ligninolytic enzyme systems has emerged. Among various biocatalysts, white rot basidiomycetes have been recognized to be suitable for lignin modification through their ligninolytic enzyme system with high redox potential. Phanerochaete chrysosporium is model-basidiomycete, and is well-known to degrade lignin with ligninolytic enzymes system. In this study, we tried to perform the biomodification of synthetic lignin which was directly synthesized from monolignols by Phanerochaete chrysosporium. And it was investigated that various enzymes system related to lignin biomodification through the transcriptomic approach. At first, in biomodification of synthetic lignin by whole cell of P. chrysosporium, it induced the degradation and polymerization of synthetic lignin, simultaneously. To accelerate degrading lignin and producing valuable chemicals from lignin, ascorbic acid and α-tocopherol were used as reducing agents. As a result, the addition of ascorbic acid and α-tocopherol concurrently induced the degradation of synthetic lignin as well as the production of aromatic compounds (syringic acid and hydroquinone) and succinic acid under ligninolytic treatment by P. chrysosporium. And it was established the biomodification mechanism of synthetic lignin by P. chrysosporium. Transcriptomic analysis of P. chrysosporium provided information about enzymes related to the lignin degradation and aromatic catabolic pathway in the presence of reducing agents. As a result, the bond cleavage of lignin was caused by many enzymes following extracellular enzymes such as lignin peroxidase and multicopper oxidase, and aromatic compounds were converted by intracellular enzymes such as benzoquinone reductase and aryl alcohol dehydrogenase. Finally, degraded intermediates were metabolized in the short-cut TCA cycle of P. chrysosporium. Likewise transcriptomic results, real time PCR results also indicated similar tendency. As a result of analyzing the expression of genes encoding lignin peroxidase and multicopper oxidase, pclip1 gene and pcmco1 gene were highly upregulated by addition of synthetic lignin. In addition, these two genes were distinctive in phylogenetic tree analysis. Therefore, pclip1 gene and pcmco1 gene were chosen as valuable gene related to degradation of lignin. In further study, heterolygous expression in yeast of these genes encoding LiP and multicopper oxidase from P. chrysosporium will be attempted. Consequently, this study is expected to improve the usefulness of ligninolytic enzymes isolated from white rot fungi.

- 29 - ∙∙∙ 심포지엄 발표 ∙∙∙

S5-1 연사 약력

1. 인적사항 성 명 홍창영 생년월일 1985 12 27 소속기관 국립산림과학원 직 위 박사연구원 전화번호 02 961 2754 팩스번호 연 락 처 이동전화 010 3174 2124 전자메일 [email protected]

2. 학력 / 경력 연도 학교/기관 전공/직위 학위/비고 2008. 8 서울대학교 농업생명과학대학 환경재료과학 학사 2011. 2 서울대학교 농업생명과학대학 환경재료과학 석사 2016 . 8 서울대학교 농업생명과학대학 환경재료과학 박사 2016. 9 국립산림과학원 박사연구원

3. 주요연구실적

백색부후균을 이용한 환경호르몬 및 리그닌 분해 기작 분석 및 관련 효소 분석

① 백색부후균 Ceriporia sp. ZLY-2010을 이용한 Polychlorinated biphenyls의 생분해 연구 - Chang-Young Hong, Ki-Seob Gwak, Su-Yeon Lee, Seon-Hong Kim, Soo-Min Lee, Mi Kwon and In-Gyu Choi. 2012. Biodegradation of PCB congeners by white rot fungus, Ceriporia sp. ZLY-2010, and analysis of metabolites, Journal of Environmental Science and Health part A 47 : 1878-1888 - Chang-Young Hong, Ho-Yong Kim, Su-Yeon Lee, Seon-Hong Kim, Soo-Min Lee and In-Gyu Choi. 2013. Involvement of extracellular and intracellular enzymes of Ceriporia sp.ZLY-2010 for biodegradation of polychlorinated biphenyls (PCBs), Journal of Environmental Science and Health, Part A 48(10) : 1280-1291

② 백색부후균 Phanerochaete chrysosporium을 이용한 리그닌 변환 기작 구명 및 관련 효소 분석 - P. chrysosporium의 catabolic system에 의한 합성리그닌의 분해 및 리그닌 유래 유기산 화합물의 생산 기작 구명 - 리그닌 변환 관련 균체 내외 효소 분석 및 타겟 유용 단백질의 발현 분석

- 30 - ∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S5-2

Genetics and molecular biology of developmental competence in Aspergillus

Jae-Hyuk Yu Departments of Bacteriology and Genetics, University of Wisconsin-Madison Madison, WI 53706, USA; *Email: [email protected]

Asexual development (conidiation) of the filamentous fungus Aspergillus nidulans occurs via balanced activities of multiple positive and negative regulators. For instance, FluG (+) and SfgA (-) govern upstream regulation of the developmental switch, and BrlA (+) and VosA (-) control the progression and completion of conidiation. To identify negative regulators of conidiation downstream of FluG-SfgA, we carried out multicopy genetic screens using sfgA deletion strains. After visually screening >100,000 colonies, we isolated 61 transformants exhibiting reduced conidiation. Responsible genes were identified as AN3152 (nsdD), AN7507, AN2009, AN1652, AN5833, and AN9141. Importantly, nsdD, a key activator of sexual reproduction, was present in 10 independent transformants. Furthermore, deletion, overexpres- sion, and double-mutant analyses of individual genes have led to the conclusion that, of the six genes, only nsdD functions in the FluG-activated conidiation pathway. The deletion of nsdD bypassed the need for fluG and flbA~flbE, but not brlA or abaA, in conidiation, and partially restored production of the mycotoxin sterigmatocystin (ST) in the ΔfluG, Δ flbA, and ΔflbB mutants, suggesting that NsdD is positioned between FLBs and BrlA in A. nidulans. We have further revealed that NsdD is a key repressor affecting the quantity of asexual spores in Aspergillus. Moreover, nullifying both nsdD and vosA results in abundant formation of the development specific structure conidiophores even at 12 h of liquid culture, and near constitutive activation of conidiation, indicating that acquisition of developmental competence involves the removal of negative regulation exerted by both NsdD and VosA. NsdD's role in repressing conidiation is conserved in other aspergilli, as deleting nsdD causes enhanced and precocious activation of conidiophore development in Asper- gillus fumigatus and Aspergillus flavus. In vivo targeted NsdD-DNA interaction analyses identify three NsdD binding regions in the promoter of the essential activator of conidiation brlA, indicating a direct repressive role of NsdD in conidiation. Importantly, loss of flbC or flbD encoding upstream activators of brlA in the absence of nsdD results in delayed activation of brlA, suggesting distinct positive roles of FlbC and FlbD in conidiation. Genome-wide NsdD-DNA interaction analyses in conidia employing ChIP-seq suggest that NsdD plays a key role governing regulation of various metabolic and regulatory genes in spore. A genetic model depicting regulation of conidiation in A. nidulans will be discussed.

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S5-2 Curriculum Vitae

Name Yu, Jae-Hyuk Nationality USA Affiliation University of Wisconsin-Madison, Madison WI Position Professor Telephone +1-608-262-4696 Fax +1-608-262-9865 E-mail [email protected] BS 1986, Seoul National University, Seoul, Korea; Microbiology MS 1991, University of Wisconsin-Madison; Food Science Education PhD 1995, University of Wisconsin-Madison; Genetics Postdoc 1995-1998, Texas A&M University; Genetics 7/2011 ~ Professor, Departments of Bacteriology and Genetics, Food Research Institute (FRI), Molecular and Environmental Toxicology Center (METC). University of Wisconsin-Madison, Madison, WI 53706 12/2006 ~ 6/2011 Associate Professor, The same as above Experience 7/2006 ~ 11/2006 Associate Professor, Department of Food Microbiology and Toxicology (FMT) UW-Madison 7/2000 ~ 6/2006 Assistant Professor, FMT, UW-Madison 1995 ~ 1998 Postdoctoral Research Associate (Dr. Thomas H. Adams), Department of Biology, Texas A&M University, College Station, TX 77843 *** Peer-reviewed Papers (84) Lee MK, Park HS, Han KH, Hong SB, Yu JH (2017) High molecular weight genomic DNA mini-prep for filamentous fungi. Fungal Genet. Biol. 104:1-5 Igbalajobi OA, Yu JH, Shin KS (2017) Characterization of the rax1 gene encoding a putative regulator of G protein signaling in Aspergillus fumigatus. Biochem. Biophys. Res. Commun. : . pii: S0006-291X(17)30755-6. doi:10.1016/j.bbrc.2017.04.079. Choi JM, Park K, Lee B, Jeong D, Dindulkar SD, Choi Y, Cho E, Park S, Yu J.-H., Jung, S. 2017. Solubility and bioavailability enhancement of ciprofloxacin by induced oval-shaped Main mono-6-deoxy-6-aminoethylamino-β-cyclodextrin. Carbohydr Polym 163:118-128 Scientific de Vries RP, Riley R, Wiebenga A, Aguilar-Osorio G, Amillis S, Uchima CA, et al. (2017). Publication Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus. Genome Biol. 18(1):28 (PMC5307856) Choi JM, Hahm E, Park K, Jeong D, Rho WY, Kim J, Jeong DH, Lee YS, Jhang SH, Chung HJ, Cho E, Yu JH, Jun BH, Jung S 2017. SERS-Based Flavonoid Detection Using Ethylenediamine-β-Cyclodextrin as a Capturing Ligand. Nanomaterials (Basel) 7(1): Jae Min Choi, Benel Lee, Daham Jeong, Kyeong Hui Park, Eun-Ji Choi, Yong-Joon Jeon, Someshwar D. Dindulkar, Eunae Cho, Sun Hee Do, Kyungho Lee, Im-Soon Lee, Seyeon Park, Bong-Hyun Jun, Jae-Hyuk Yu, Seunho Jung, Characterization and regulated naproxen release of hydroxypropyl cyclosophoraose-pullulan microspheres, J.Industrial and Engineering Chemistry, 48, 108-118.

- 32 - S6 Fungal Ecology and Taxonomy May 26(Fri.) 10:40-11:40, The Ocean Hotel, Grand Ballroom

Chair : Jae-Sun Hur (Sunchon Nat’l Univ)

S6-1 10:40-11:10 Production and activity of cristazarin in the lichen-forming fungus Cladonia metacorallifera Sook-Young Park (Sunchon Nat’l Univ)

S6-2 11:10-11:40 Taxonomic studies of Korean wild mushrooms in Korea National Arboretum (KNA) Chang-Sun Kim (Korea Nat’l Arboretum)

∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

S6-1

Production and activity of cristazarin in the lichen-forming fungus Cladonia metacorallifera

Jung A Kim1,2, Chan-Ho Park1, Soon-Ok Oh3, Min-Hye Jeong1, Yi Yang1, Nan-Hee Yu1,4, Jin-Cheol Kim4, Hangun Kim5, Soonok Kim2, Sook-Young Park6,*, and Jae-Seoun Hur1,* 1Korean Lichen Research Institute, Sunchon National University, Sunchon 57922, Korea; 2Wildlife Genetic Resources center, National Institute of Biological Resources, Incheon, Korea; 3Division of Forest Biodiversity, Korea National Arboretum, Pocheon 11186, Korea; 4Division of Applied Bioscience and Biotechnology, Institute of Environmentally Friendly Agriculture, College of Agriculture and Life Sciences, Chonnam National University, Gwangju 61186, Korea; 5College of Pharmacy and Research Institute of Life and Pharmaceutical Sciences, Sunchon National University, Sunchon 57922, Korea; 6Dept. of Plant Medicine, Sunchon National University, Suncheon, Korea

A rare lichen Cladonia metacorallifera var. reagens KoLRI002260 has been known to produce rhodocladonic, thamnolic, and didymic acid. However, these metabolites were not detected in the isolated mycobiont. In this study, we have investigated the effect of six different carbon sources on the biosynthesis of cristazarin and 6-methylcristazarin in the C. metacorallifera mycobiont. Only fructose was observed to have an inducing effect and light was essential factor on the production of these compounds. We have confirmed the cristazarin by NMR analysis after get purified compound by prep-HPLC. Moreover, production of cristazarin was induced after 2 weeks and exponentially increased until 6 weeks on liquid or solid culture under light. The results suggest that different carbon sources may induce the specific polyketide biosynthetic pathway in culture of the C. metacorallifera mycobiont. A total of 30 genes encoding putative polyketide synthesis (PKS) genes were identified from the C. metacorallifera genome. Expression profiles showed that majority of them are induced under the medium. Phylogenetic reconstruction placed the PKS genes into five clades. Biological activity of the cristazarin showed inhibitory activity against AGS (gastric cancer cell), CT26 (colon cancer cell), and B16F1 (melanoma cancer cell) cells. The results from this study will be provide mass production of cristazarin in C. metacorallifera.

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S6-1 연사 약력

1. 인적사항 성 명 박 숙 영 생년월일 1973년 8월 18일 소속기관 순천대학교 식물의학과 직 위 조교수 전화번호 061-750-3868 팩스번호 061-750-3208 연 락 처 이동전화 010-9217-2649 전자메일 [email protected]

2. 학력 / 경력 연도 학교/기관 전공/직위 학위/비고 1992.03-1996.02 순천대학교 농생물학 학사 1996.03-1998.02 서울대학교 식물병리학 석사 1999.03-2002.02 서울대학교 식물병리학 박사 2002.02-2003.05 서울대/농업생물신소재연구센터 연구원 2003.05-2007.12 Penn. State University Post Doc. 2008.01-2009.08 서울대/농업생물신소재연구소 연구조교수 2009.09-2013.02 서울대/곰팡이병원성연구센터 연구조교수 2013.03-2017.02 순천대/한국지의류연구센터 연구조교수 2017.02-현재 순천대/식물의학과 조교수

3. 주요연구실적

Park, S.-Y., Choi, J., Lim, S.E., Lee, G.W., Park, J., Kim, Y., Kong, S., Kim, S.R., Rho, H.S., Jeon, J., Chi, M.-H., Kim, S., Khang, C.H., Kang, S., and Lee, Y.-H. 2013. Global expression profiling of transcription factor genes provides new insights into pathogenicity and stress responses in the rice blast fungus. PLoS Pathogens 9(6)e103350.

Park, S.-Y, Jeong, M.-H., Wang, H.-Y., Kim, J. A., Yu, N.-H., Kimg, S., Cheong, Y. H., Kang, S., Lee, Y.-H., and Hur, J.-S. 2013. Agrobacterium tumefaciens-mediated transformation of the lichen fungus, Umbilicaria muehlenbergii. PLoS One 8:e83896.

Mir, A. A., Park,S.-Y., Sadat, Md. A., Kim, S. Choi, J., Jeon, J., and Lee, Y.-H. 2015. Systematic characterization of the peroxidase gene family provides new insights into fungal pathogenicity in Magnaporthe oryzae. Scientific reports 5: 11831. (co-first author)

Sun, J., Park,S.-Y., Kang, S., Liu, X., Qiu, J., and Xiang, M. 2015. Development of transformation system for Hirsutellaspp. and visualization of the mode of nematode infection by GFP-labeled H. minnesotensis. Scientific reports 5: 10477. (IF: 5.578)

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S6-2

Taxonomic studies of Korean wild mushrooms in Korea National Arboretum

Chang Sun Kim Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Republic of Korea; *Email: [email protected]

About 2,500 species of mushroom are known to Korean flora up to date. Most of them, more often than not, have been reported through various illustrated books and mushroom flora studies without detailed descriptions on morphological characters to distinguish species. This results in much of misidentification and misinformation of species. In addition, many of those recorded species have not been preserved as voucher specimens. Such circumstances seem to hinder advancing the taxonomical studies of Korean wild mushrooms. In the early 1990’s, the introduction of molecular phylogeny into fungal taxonomy has resulted in drastic changes of fungal systematics: increasing the number of genera and/or species, validating scientific names, re-describing with detailed descriptions of morphological characters and characterizing species with genetic markers. Therefore, many of mushroom species known to Korean flora need to be re-evaluated, based on combinations of phylogenetic and morphological data of voucher specimens. Currently, Korea National Arboretum has collected 22,633 mushroom specimens (classified into 1,732 species, 444 genera, 114 families, 27 orders, 10 classes and 2 phyla - including unidentified species until species-level), all supplemented with various collection-information such as ecological types, habitats, GPS, images and genetic samples (DNA extracts and sequences) from across all regions of South Korea. In addition, we also have various fungal isolations that have been accumulated to utilize and preserve as fungal genetic resources. With all these information on species and contiuous collection, we can make more comprehensive and precise reports on newly recognized species and descriptions of new species. Further- more we can investigate the relationships between fungi and the other organisms such as various trees, herbages and insects in order to answer various questions about ecological network. I believe our study is useful for providing basic information on Korean wild mushrooms and contribute to the microbiological development of Korea.

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S6-2 연사 약력

1. 인적사항 성 명 김창선 생년월일 1984. 02. 12. 소속기관 국립수목원 직 위 박사후연구원 전화번호 031-540-1085 팩스번호 031-540-1070 연 락 처 이동전화 010-3405-3467 전자메일 [email protected]

2. 학력 / 경력 연도 학교/기관 전공/직위 학위/비고 2008. 02. 충남대학교 응용생물학 농학학사 2010. 02. 충남대학교 대학원 식물병리학 및 세포공학 농학석사 2013. 03. 돗토리대학 대학원 (일본) 생물환경과학 농학박사 2013.04~현재 국립수목원 박사후연구원

3. 주요연구실적

Kim CS, Jo JW, Kwag Y-N, Sung G-H, Han J-G, Shrestha B, Oh S-O, Kim S-Y, Shin C-H, Han S-K*. 2016. Two new Lycoperdon species collected from Korea: L. albiperidium and L. subperlatum spp. nov. Phytotaxa 260(2): 101-115. Kim CS, Jo JW, Kwag Y-N, Oh S-O, Lee S, Sung G-H, Han J-G, Oh J, Shrestha B, Kim S-Y, Shin C-H, Han S-K*. 2016. New Records of Xylaria Species in Korea: X. ripicola sp. nov. and X. tentaculata. Mycobiology 44: 21-28. Kim CS, Nam JW, Jo JW, Kim S-Y, Han J-G, Hyun MW, Sung G-H*, Han S-K*. 2016. Studies on Seasonal Dynamics of Soil-Higher Fungal Communities: in Mongolian Oak (Quercus mongolica Fisch. Ex Ledeb.)-dominant Forest, Gwangneung Forest, Korea. J. Microbiology 54: 14-22. KimCS, Shirouzu T, Nakagiri A, Sotome K, Maekawa N. 2013. Trichoderma eijii and T. pseudolacteum, two new species from Japan. Mycol Progress 12: 739-753. Kim CS, Yu SH, Nakagiri A, Shirouzu T, Sotome K, Kim SC, Maekawa N. 2012. Re-evaluation of Hypocrea pseudogelatinosa and H. pseudostraminea isolated from shiitake mushroom (Lentinula edodes) cultivation in Korea and Japan. Plant Pathol. J. 28:341-356. Kim CS, Shirouzu T, Nakagiri A, Sotome K, Nagasawa E, Maekawa N. 2012. Trichoderma mienum sp. nov., isolated from mushroom farms in Japan. Antonie van Leeuwenhoek 102: 639-641.

- 38 - Poster Sessions

Section A I Taxonomy & Ecology (38) Section B I Genetics & Pathogenesis (9) Section C I Physiology & Metabolism (21) Section D I Biotechnology & Application (8)

∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

포스터 발표순서 Poster List

A Section A (A-1~38) : Taxonomy & Ecology

A-1 Wild Yeasts Associated with Soils and Waters Collected from Riverside of Daejeoncheon and Gapcheon, Daejeon, Korea ··········································································· 51 Sang-Min Han, Jae-Ho Jang, Jong-Soo Lee, and Ha-Kun Kim* Department of Biomedical Science and Biotechnology, Paichai University, Daejeon, 35345, Korea

A-2 Isolation and Identification of Wild Yeasts from Waters and Soils of Yedang Reservoir in Yesan of Chungcheongnam-do, Korea ····················································· 51 Sang-Min Han, Sang-Yeop Lee, Ha-Kun Kim, and Jong-Soo Lee* Department of Biomedical Science and Biotechnology, Paichai University, Daejeon, 35345, Korea

A-3 Fungal Diversity of Needle Fir (Abies holophylla) Stand in Gwangneung Forest ·············· 52 Young-Nam Kwag, Jong Won Jo, Chang Sun Kim, Soon-Ok Oh , Ju Yeong Park, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Korea

A-4 Comparison of Ectomycorrhizal Fungal Communities isolated from Taxus cuspidata in Mt. Halla According to Vertical Distribution of Temperature ············································ 52 Hui-Chang Son and Ahn-Heum Eom* Department of Biology Education, Korea National University of Education, Cheongju, Chungbuk 28173, Korea

A-5 Diversity of Korean Wild Mushrooms based on voucher specimens in Korea National Arboretum (KNA) ····································································································· 53 Chang Sun Kim, Jong Won Jo, Soon-Ok Oh, Ju Yeong Park, Young-Nam Kwag, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Republic of Korea

A-6 Comparative analysis for endophyte diversity between Mt. Baekryeon and Johang in Korea ····································································································································· 53 Ju-Kyeong Eo1,2, Chang-Kyun Kim1 and Ahn-Heun Eom1* 1Department of Biology Education, Korea National University of Education, Chungbuk, 363-791, Republic of Korea, 2Division of Basic Research, Bureau of Ecological Research, National Institute of Ecology, Chungnam, 33657, Republic of Korea

A-7 Characterization of Enriched Indigenous Microorganism for Application to Plant Growth and Disease Suppression ························································································· 54 Win W. Nyein, Wilfred. M. Kawishe, Doo Hwan Kim, Se-Chul Chun1 1*Department of Bioresource and Food Science, Konkuk University, Gwangjin-gu, Seoul-143 701, Republic of Korea

A-8 Community Change of Endophytic Fungi Isolated from Abies Koreana inhabiting in Mt. halla ············································································································································· 54 Dong Yeo Kim and Ahn-Heum Eom* Department of Biology, Korea National University of Education

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A-9 Endophytic Fungi Isolated from Roots of Korean Rosebay and Smile Rosebay in Mt. Minjuji ··········································································································· 55 Hyeok Park and Ahn-Heum Eom* Department of Biology, Korea National University of Education

A-10 The Community Structure of the Ectomycorrhizal Fungi Which are Symbiotic Relationship with Abies koreana along an Environmental Gradient in the Mt. Jiri ········ 55 Jae-sung Shim and Ahn-Heum Eom* Department of Biology Education, Korea National University of Education, Cheongju, Chungbuk 28173, Korea

A-11 Arbuscular Mycorrhizal Fungal Distribution According to Salinity in Saemangeum Reclimed Land ······································································································································· 56 Hyo-Kyung Lee and Ahn-Heum Eom* Department of Biology, Korea National University of Education

A-12 Toxigenic potential of fungi associated with silage produced in Korea ······························ 56 Hyeonheui Ham*, Jiseon Baek, Mijeong Lee, Sung Kee Hong, Theresa Lee, and Soohyung Lee Microbial Safety Division, Department of Agri-Food Safety, Nation Institute of Agricultural Sciences, Rural Development Administration, Wanju, Korea

A-13 First report of Korean Ceriporia alachuana and Fibricium subseraceum ···························· 57 Sun Lul Kwon, Seokyoon Jang, Kyeongwon Kim, Chul-Whan Kim, and Jae-Jin Kim* Division of Environmental Science & Ecological Engineering, College of Life Science & Biotechnology, Korea University

A-14 Re-evaluation of Trichoderma harzianum species complex in Korea based on morphological and phylogenetic analysis ··································································· 57 Seokyoon Jang1, Sun Lul Kwon1, Hanbyul Lee1, Myung Soo Park2, Young Woon Lim2, Changmu Kim3, and Jae-Jin Kim1* 1*Division of Environmental Science & Ecological Engineering, College of Life Science & Biotechnology, Korea University, 2School of Biological Sciences and Institute of Microbiology, Seoul National University, 3Biological and Genetic Resources Assessment Division, National Institute of Biological Resources

A-15 Isolation of Soil-fungi in Japanese Larch (Larix kaempferi) Stand, Gwangneung Forest ······························································································································ 58 Ju Yeong Park, Chang Sun Kim, Jong Won Jo, Soon-Ok Oh, Young-Nam Kwag, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum

A-16 Flora of Lichen in Jangyeol-ri Wind Hole (Gangwon-do, Korea) ············································ 58 Soon-Ok Oh1, Chang Sun Kim1, Jong Won Jo1, Young-Nam Kwag1, Ju Yeoung Park1, Jung Shin Park2, Jae-Seoun Hur2, and Sang-Kuk Han1* 1Forest Biodiversity Division, Korea National Arboretum, 2Korean Lichen Research Institute, Sunchon National University

A-17 Distribution of Higher fungi in Gyeongju National Park, Republic of Korea ···················· 59 Sang-Kuk Han*, Young-Nam Kwag, Jong Won Jo, Chang Sun Kim, Soon-Ok Oh, and Ju Yeong Park Forest Biodiversity Division, Korea National Arboretum

A-18 Two unrecorded Amanita species Belong to Subgenus Lepidella in Korea ························ 59 Jong Won Jo, Chang Sun Kim, Soon-Ok Oh, Young-Nam Kwag, Ju Yeong Park, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Republic of Korea

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A-19 Three novel species of Bremia originate from East Asian species of the Asteraceae ········································································································································ 60 Ji-Hoon Park1, Hyeon-Dong Shin2, Hyang Burm Lee3, Marco Thines4,5, and Young-Joon Choi1* 1Department of Biology, Kunsan National University, Gunsan-si 54150, Korea; 2Division of Environmental Science and Ecological Engineering, College of Life Sciences and Biotechnology, Korea University, 02841 Seoul, Korea; 3Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; 4Goethe University Frankfurt am Main, Faculty of Biosciences, Institute of Ecology, Evolution and Diversity, Max-von-Laue-Str. 9, D-60438 Frankfurt am Main, Germany; 5Biodiversity and Climate Research Centre (BiK-F), Senckenberg Gesellschaft für Naturforschung, Senckenberganlage 25, D-60325 Frankfurt am Main, Germany

A-20 Diversity, phylogeny, and host-specialization of Hyaloperonospora species in Korea ··················································································································································· 60 Jae-Sung Lee1, Hyeon-Dong Shin2, Hyang Burm Lee3, and Young-Joon Choi1* 1Department of Biology, Kunsan National University, Gunsan-si 54150, Korea; 2Division of Environmental Science and Ecological Engineering, College of Life Sciences and Biotechnology, Korea University, 02841 Seoul, Korea; 3Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea

A-21 Comparison of Ectomycorrhizal Fungal Communities isolated from Abies koreana in Mt. Halla According to Vertical Distribution of Temperature ············································ 61 Ji-Eun Lee and Ahn-Heum Eom* Department of Biology Education, Korea National University of Education, Cheongju, Chungbuk 28173, Korea

A-22 The first report of Hypomyces luteovirens, and H. tubariicola from Korea ······················· 61 Minkyeong Kim1,2, Chorong Ahn1, Eun Ju Woo1, and Changmu Kim1* 1*Microorganisms Resources Division, National Institute of Biological Resources, Incheon 22689, Korea, 2Division of Life Sciences, Incheon National University, Incheon 22012, Korea

A-23 Investigation of Fungi from Imported Media Substrates Used for Mushroom Cultivation ·················································································································· 62 Geunsick Lee1, Jun Young Kim1, and Seong Hwan Kim1,2* 1Department of Microbiology, University of Dankook; 2Institute of Biodiversity, University of Dankook, 119, Dandae-ro, Cheonan-si, Chungcheongnam-do, Republic of Korea

A-24 The comparison of β-1,3-glucanase activity between mycovirus-cured Trichoderma harzianum NFCF319 and mycovirus-infected T. harzianum NFCF319 ··································· 62 Han-Eul Yang, Yo-Han Ko, Kum-Kang So, So Yeun Choi, Jeesun Chun, and Dae-Hyuk Kim* Department of Molecular Biology, Department of Bioactive Material Sciences, Institute for Molecular Biology and Genetics, Chonbuk National University, Jeonju, Chonbuk 54896, Korea

A-25 A Report of 12 Unrecorded Endophytic Fungi of Korea ··························································· 63 Eunsu Park1, Dongsu Yu1, Jideok Jang1, Sung Bae Park2, and Ju-Kyeong Eo1* 1Division of Basic Research, Bureau of Ecological Research, National Institute of Ecology, Chungnam, 33657, Republic of Korea; 2Nakdong Estuary Eco-Center, Busan 49435 , Republic of Korea

A-26 Eleven New Records of Fungal Isolates from Field Soil in Korea ········································· 63 Hyun Gu Lee, Mahesh Adhikari, Hyun Seung Kim, Sun Kumar Gurung, Setu Bazie, and Youn Su Lee* Division of Biological Resources Sciences, Kangwon National University, Chuncheon 24341, Korea

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A-27 A New Mucoralean Fungal Species Isolated from Feces of Grasshopper in Korea ········· 64 Seo Hee Lee, Thi Thuong Thuong Nguyen, and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture and Life Sciences, Chonnam National University, Gwangju 500-757, Korea

A-28 A New Record of Ascodesmis sphaerospora Isolated from a Soil Sample Collected at Dokdo Island, Korea ······················································································································· 64 Hoa Thi Pham, Thuong T.T. Nguyen, and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea

A-29 Two New Records of Ascomycete Fungi from Freshwater Samples in Korea ···················· 65 Hyo Jin Lim, Thuong T.T. Nguyen and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea

A-30 Two Unrecorded Species of Acremonium: A. persicinum and A. variecolor from Soil Samples in Korea ························································································································· 66 Se Won Park, Tham Thi Duong, Thuong T. T. Nguyen and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea

A-31 Two undescribed species belonging to Chaetomiaceae: Chaetomium trigonosporum and Amesia nigricolor ························································································································· 67 Sun Jeong Jeon, Tham Thi Duong, and Hyang Burm Lee* Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea

A-32 Two Unrecorded Species of Fungi from Grasshopper Fecal Samples in Korea ················ 68 Thuong T.T. Nguyen and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea

A-33 A new lichenicolous fungus, Phaeopyxis subpunctum, from Mount Washington in New Hampshire, U.S.A. ················································································································· 68 Beeyoung Gun Lee1, Dale A. Kruse2, and Jae-Seoun Hur1* 1Korean Lichen Research Institute, Sunchon National University, Suncheon 57922, Korea, 2S.M. Tracy Herbarium (TAES), Texas A&M University, 2138 TAMU

A-34 Rinobuellia boseongensis gen. et sp. nov. and Sculptolumina coreana sp. nov., two new corticolous buellioid members of the Caliciaceae (Lichenized Ascomycota) from Eastern Asia ·································································································································· 69 Dong Liu1, Sergey Y. Kondratyuk2, Huan Wang3, László Lőkös4, Josef P. Halda5, Min Hye Jeong1, Jung Shin Park1, and Jae Seoun Hur1* 1* Korean Lichen Research Institute (KoLRI), Sunchon National University, Sunchon 57922, Korea; 2M. H. Kholodny Institute of Botany, 01601 Kiev, Ukraine; 3 Engineering Research Center of Chinese Ministry of Education for Edible and Medicinal Fungi , Jilin Agriculture University, Changchun 130118, Jilin Province, China; 4Department of Botany, Hungarian Natural History Museum, H-1476 Budapest, Hungary; 5Muzeum a galerie Orlických hor, Jiráskova 2, 516 01 Rychnov nad Kněžnou, Czech Republic; *Email: [email protected]

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A-35 Characterization of Endophytic Fungi Isolated from Native Plants in Dokdo Island, Korea ···························································································································· 69 Nan Yeong Lee, Hye Rim Choi, Min Ji Jeong, Doo Ho Choi, and Jong-Guk Kim* School of Life Science, Kyungpook National University, Daegu 701-701, Korea

A-36 Phylogenetic Relationship of the Genus Phellinus strains isolated in Korea and their morphological and cultural characteristics ········································································· 70 Gyeongjin Min1, Soon-Ja Seok3, and Heewan Kang1.2* 1Graduate School of Bio.&Information Technology, Hankyong National University, Ansung 456-749, Korea, 2JK BioTech Co. Ltd.Hankyong National University, Ansung 456-749, Korea, 3Agricultural Microbiology Division, National Academy of Agricultural Science (NAAS), Rural Development Administration (RDA), Wanju 565-851, Korea

A-37 Korea Mushroom Resource Bank ····································································································· 70 Young Ju Min, Nam Kyu Kim, Jae Young Park, Young Woon Lim* School of Biological Sciences, Seoul National University, Seoul 151-747, Korea

A-38 Marine Fungal Resource Bank ··········································································································· 71 Ji Eun Eom, Jae Young Park, Myung Soo Park, Young Woon Lim* School of Biological Sciences, Seoul National University, Seoul, 151-747, Korea

B Section B (B-1~9) : Genetics & Pathogenesis

B-1 Plant growth promotion and biocontrol activity by Aspergillus spp. in tomato plants ···································································································································· 71 Da Jeong Shin, Sung-Je Yoo, and Mee Kyung Sang* Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration, Wanju 55365, South Korea

B-2 Induced resistance/tolerance to biotic and abiotic stresses by rhizobacterial strains and their crude extracts in tomato plants ····························································································· 72 Sung-Je Yoo, Jaekyeong Song, Hang-Yeon Weon, and Mee Kyung Sang* Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration, Wanju 55365, Korea

B-3 Characterization of The Ginseng Root Rot Fungus Cylindrocarpon destructans and The Effect of Fungicides on Mycelial Growth ·············································································· 72 Jong-Hwan Shin, Gi-Chang Park and Kyoung Su Kim Divsion of Bioresource Sciences, Kangwon National University, Chuncheon 24341, South Korea

B-4 Broad-spectrum biocontrol activity and characteristics of plant growth-promoting rhizobacteria ··········································································································································· 73 Ji Eun Mun, Jaekyeong Song, Hang-Yeon Weon, Mee Kyung Sang* Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration, Wanju 55365, South Korea

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B-5 New Record of Anthracnose Caused by Colletotrichum liriopes on Broadleaf Liriope in Korea ················································································································· 73 Sang-Keun Oh* Department of Applied Biology, College of Agriculture & Life Sciences, Chungnam National University, Daejeon 34134, Korea

B-6 First report of Colletotrichum fructicola causing anthracnose on chilli pepper in Korea ··················································································································································· 74 Jae Geum Lee1, Hyo Won Kim1, Young Kee Lee1, Sung Kee Hong2, Jeomsoon Kim1, and Hyo-Won Choi1* 1Crop Protection Division, National Institute of Agricultural Sciences, Wanju 55365, Korea, 2Microbial Safety Team, National Institute of Agricultural Sciences, Wanju 55365, Korea

B-7 First report of Fusarium fujikuroi associated with Fusarium wilt on soybean in Korea ··················································································································································· 74 Hyo Won Kim1, Jae Geum Lee1, Young Kee Lee1, Sung Kee Hong2, Jeomsoon Kim1, and Hyo-Won Choi1* 1Crop Protection Division, National Institute of Agricultural Sciences, Wanju 55365, Korea, 2Microbial Safety Team, National Institute of Agricultural Sciences, Wanju 55365, Korea

B-8 Biological Characterization of Entomopathogenic Fungi Having High Virulence against Two Aphid Species ················································································································ 75 Tae-Young Shin, Byung-Ju Lee, Ji Hee Han, Jeong Jun Kim*, and Sang Yeob Lee Agricultural Microbiology Division, National Institutes of Agricultural Sciences, Rural Development Administration, Korea

B-9 High Virulence Isolates of Entomopathogenic Fungi for the Microbial Control of Spodoptera litua ···································································································································· 75 Jihee han*, Jeong Jun Kim, Dayeon Kim, Seongho ahn and Sang Yeob Lee Agricultural Microbiology Division, National Institute of Agricultural Sciences, RDA, Wanju, 55365, Republic of Korea

C Section C (C-1~21) : Physiology & Metabolism

C-1 Gpp2 is Required for Cell Wall Integrity and Fungal Virulence in Cryptococcus neoformans ············································································································································· 76 Won-Hee Jung1, Min-Ju Kim1, Ye-Eun Son1, Sang-Hun Oh2, Hye Shin Kim2, Jin-Hwan Kwak2, Joseph Heitman3, Maria E. Cardenas3, and Hee-Soo Park1* 1School of Food Science and Biotechnology, Kyungpook National University, Daegu, South Korea, 2School of Life Science, Handong Global University, Pohang, South Korea, 3Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA

C-2 The Role of Mkt1 in Sexual Reproduction in Cryptococcus neoformans ···························· 76 Ye-Eun Son1, Won-Hee Jung1, Ci Fu2, Tae-Jin Eom1, Joseph Heitman2, Maria E. Cardenas2, and Hee-Soo Park1* 1School of Food Science and Biotechnology, Kyungpook National University, Daegu, South Korea, 2Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA

C-3 The Role of CaMon1 in Fungal Virulence and Stress Survival in Cryptococcus neoformans ············································································································································· 77 Ye-Eun Son1, Hyun-Ji Kim1, Won-Hee Jung1, Joseph Heitman2, Maria E. Cardenas2, and Hee-Soo Park1* 1School of Food Science and Biotechnology, Kyungpook National University, Daegu, South Korea, 2Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA

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C-4 The role of VosA/VelB-activated developmental gene vadA in Aspergillus nidulans ········ 77 Hee-Soo Park1, Mi-Kyung Lee2, and Jae-Hyuk Yu2 1School of Food Science and Biotechnology Kyungpook National University, Daegu, South Korea, 2Department of Bacteriology, University of Wisconsin, Madison, WI, USA

C-5 Determination of transposon inserted loci for analyzing tolaasin negative mutants obtained by mutagenesis from Mushroom Pathogen, Pseudomonas tolaasii ····················· 78 Jung Hun Jeon*, Chang Won Lee, and Kim Jae Won Division of Applied Life Science (BK21 program), Gyeongsang National University

C-6 Identification of genes for tolaasin production except non-ribosomal peptide synthease(NRPS) gene cluster in mushroom pathogen, Pseudomonas tolaasii ·················· 79 Jung Hun Jeon*, Chang Won Lee, and Kim Jae Won Division of Applied Life Science (BK21 program), Gyeongsang National University

C-7 Function analysis of a hypovirus-regulated septin Cdc11 ortholog, CpSep1, from the chestnut blight fungus Cryphonectria parasitica ······················································· 79 Myeongjin Jo1, Yo-Han Ko1, Kum-Kang So1, Jyotiranjan Bal1, Jeesun Chun1, Jung-Mi Kim2, and Dae-Hyuk Kim1* 1* Department of Molecular Biology, Department of Bioactive Material Sciences, Institute for Molecular Biology and Genetics, Chonbuk National University, Jeonju, Chonbuk 54896, Korea, 2Department of Bio-Environmental Chemistry, Institute of Life Science and Natural Resources, Wonkwang University, Iksan, Chonbuk 54538, Korea

C-8 Effect of Continuous Subculture in Agar Media on the Mycelial Growth and Fruiting of Some Mushroom Strains ·······························································································80 Min-Kyung Kim1, Byung-Joo Lee2, and Geon-Sik Seo1* 1*Department of mushroom Science, Korea National College of Agriculture and Fisheries, 2Chungcheongnam- do Agricultural Research & Extension Services

C-9 Mycelial Growth Characteristics of Edible Mushroom Suillus bovinus ································· 80 Eun-Jin Wang1, Sung-Min Jeon2, and Kang-HyeonKa1* 1Division of Wood Chemistry & Microbiology, National Institute of Forest Science, Seoul 02455, Republic of Korea, 2Woosung Apartment, Ganseok 4-dong, Namdong-gu, Incheon 21503, Republic of Korea

C-10 Relationship between Extracellular Enzyme Activity and Virulence in Culture Filtrate of Beauveria bassiana Depending on the different media components ······························ 81 Byung-Ju Lee, Tae-Young Shin, Jung-Jun Kim*, Ji-Hee Han, and Sang-Yeob Lee Agricultural Microbiology Division, National Institutes of Agricultural Science

C-11 Development of browning technology for shiitake in sawdust with LED ··························· 81 Jinmo Koo, Sung-Hak Lee, Eun-Hee Kim, Seo-Wan Park, Hyo-Chan Park, Woo-Sik Jo* Gyeongbuk Province Agricultural Technology Administration, Daegu 41404, Korea

C-12 Effect of light on the Mycelial Growth of Morchella spp. and Tricholoma spp. on PDA medium ··································································································································· 82 Jung A Kang1,2, Yeun Sug Jeong1, Seong Hwan Kim2, and Kang Hyeon Ka1* 1*Division of Wood Chemistry and Microbiology, National Institute of Forest Science, Seoul 02455, Korea, 2Department of Microbiology, Dankook University, Cheonan, Chungnam 31116, Korea

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C-13 Antioxidant activity of the culture broth of the higher fungi ················································· 82 Jae-Wook Kim1, Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1* 1Division of Biotechnology, Chonbuk National University; 2Rural Development Administration

C-14 Chemical constituents of the culture broth of the fungus Hericium coralloides ············· 83 Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University and 2Rural Development Administration

C-15 Chemical constituents of the culture broth of Schizophyllum commune and their antibiotic activity ························································································································ 83 E-Eum Woo1, Ji-Yul Kim1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University and 2Rural Development Administration

C-16 Isolation of four new compounds from the culture broth of Irpex consors ····················· 84 Yoon-Ju Lee1, Ji-Yul Kim1, E-Eum Woo1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1* 1Division of Biotechnology, Chonbuk National University, 2Rural Development Administration

C-17 Chemical constituents of the culture broth of Hydnochaete tabacinoides ························· 84 Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University, and 2Rural Development Administration

C-18 Antibiotic activity of the culture broths of the higher fungi ·················································· 85 Kyeong-woon Jeong1, Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyeong Lee1, and Bong-Sik Yun1* 1Division of biotechnology, Chonbuk National University, 2Rurai Development Administration

C-19 Antioxidant activities of the medicinal mushrooms Phellinus linteus and Phellinus baumii ··························································································································· 85 Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, In-Kyoung Lee1, Hee-Wan Kang2 , and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University, and 2Graduate School of Future Convergence Technology, Hankyong National University

C-20 Effects of different extraction methods on the antioxidant activities of Lentinula edodes ······························································································································ 86 Sooyoung Seo, Youngae Park, Yeongseon Jang*, and Kang-Hyeon Ka Division of Wood Chemistry & Microbiology, National Institute of Forest Science, Seoul 02455, Republic of Korea

C-21 Antioxidant Properties from 6 Species of Monofloral Bee Pollens treated with Medicinal Mushrooms ················································································································ 86 In-Pyo Hong*, Soon-Ok Woo, and Sang-Mi Han Department of Agricultural Biology, National Academy of Agricultural Science, RDA, Korea

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D Section D (D-1~8) : Biotechnology & Application

D-1 Screening of Useful Yeast for Brewing of Strawberry Alcoholic beverages and Its Optimal Fermentation Conditions ······························································································ 87 Sang-Min Han, Ha-Kun Kim, and Jong-Soo Lee* Department of Biomedical Science and Biotechnology, Paichai University, Daejeon, 35345, Korea

D-2 Antioxidant and antifungal ability of the indigenous Trichoderma spp. ····························· 87 Kyeongwon Kim, Joo-Hyun Hong, Young Mok Heo, Seokyoon Jang, and Jae-Jin Kim* Division of Environmental Science & Ecological Engineering, College of Life Science & Biotechnology, Korea university

D-3 Genome sequence of Gaeumannomyces sp. JS-464, a common reed originated endophytic fungi with anti-inflammatory activity ········································································ 88 Jung A Kim1, Jongbum Jeon2, Ki-Tae Kim2, In-hye Lee1, Hyun-jung Lee1, Woo Young Bang1, Hee-sun Yang1, Sook-Young Park3, Yong-Hwan Lee2, and Soonok Kim1* 1National Institute of Biological Resources, Incheon 22689, 2Fungal Bioinformatics Lab. Seoul National University, 3Dept. Plant Medicine, Sunchon National University, Sunchon 57922

D-4 Anti-inflammatory activity of endophytic fungi isolated from two aquatic plants of Poaceae ···················································································································································· 88 Jung A Kim1, In-hye Lee1, Hyun-jung Lee1, Min Hye Jeong2, Sook-Young Park2, Woo Young Bang1, Hee-sun Yang1, and Soonok Kim1* 1National Institute of Biological Resources, Incheon 22689, 2Korean Lichen Research Institute, Sunchon National University, Sunchon 57922

D-5 Detection of Antifungal Lipopeptides Genes from Rhizobacterial Isolates by Polymerase Chain Reaction ················································································································ 89 Mahesh Adhikari, Hyun Seung Kim, Sun Kumar Gurung, Setu Bazie, Hyun Gu Lee, and Youn Su Lee* Division of Biological Resources Sciences, Kangwon National University, Chuncheon 24341, Korea

D-6 A Case Study on Mold Contaminant in the Built-in Furniture in an Apartment House ···························································································································· 89 Min Ah Choi1 and Seong Hwan Kim1,2* 1Department of Microbiology and 2Institute of Biodiversity, Dankook University, 119, Dandae-ro, Cheonan-si, Chungcheongnam-do, Republic of Korea

D-7 Heterologous Expression of Terpene synthase from Polyporus brumalis in Pichia pastoris for production of the recombinant enzyme ················································································· 90 Ji-Eun An, Su-Yeon Lee, Sun-Hwa Ryu, Myung-Kil Kim* Division of Wood Chemistry & Microbiology, Department of Forest Products, National Institute of Forest Science

D-8 Cultural characteristics of crossing strains, Lentinula edodes, on medium incubation ························································································································ 90 Youngae Park, Sooyoung Seo, Yeongseon Jang, and Kang-Hyeon Ka* Division of Wood Chemistry and Microbiology, National Institute of Forest Science

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∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

A-1

Wild Yeasts Associated with Soils and Waters Collected from Riverside of Daejeoncheon and Gapcheon, Daejeon, Korea

Sang-Min Han, Jae-Ho Jang, Jong-Soo Lee, and Ha-Kun Kim* Department of Biomedical Science and Biotechnology, Paichai University, Daejeon, 35345, Korea; *Email: [email protected]

We collected different kinds of waters and soils from riverside of Daejeoncheon and Gapcheon in Daejeon, Korea at the summer and winter of 2016. Yeasts were isolated by plating of suspensions prepared for collected samples onto YPD medium containing antibiotics. BLAST searches were subsequently performed for the comparison of the partially determined sequences of D1/D2 domain of 26S rDNA. As a result, we isolated one hundred twenty yeast strains of forty four species from eighty eight different kinds of soils and waters samples and twenty three strains of Cryptococcus tropicalis were dorminant species. We found differences in yeast flora depending on the sample collection season and riverside.

Keywords : Daejeoncheon, Gapcheon, Riverside, Soils, Waters

A-2

Isolation and Identification of Wild Yeasts from Waters and Soils of Yedang Reservoir in Yesan of Chungcheongnam-do, Korea

Sang-Min Han, Sang-Yeop Lee, Ha-Kun Kim, and Jong-Soo Lee* Department of Biomedical Science and Biotechnology, Paichai University, Daejeon, 35345, Korea; *Email: [email protected]

This study focused on isolation of wild yeasts from waters and soils in main lakes and large reservoirs and elucidation of its yeast diversity. Several kinds of wild yeasts were isolated and identified from waters and soils of Yedang reservoir in Yesan, Korea. Totally sixty four yeast strains of twenty five species from forty five samples were isolated, and twenty two strains of Cryptococcus sp. were dorminant species. Among them, Cryptococcus tephrensis were fifteen strains. Furthermore, Papiliotrema flavescens and Vishniacozyma carnescens were isolated each six strains. Five strains of Filobasidium magnum was also isolated.

Keywords : Isolation, Wild yeasts, Waters, Soils, Yedang reservoir

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A-3

Fungal Diversity of Needle Fir (Abies holophylla) Stand in Gwangneung Forest

Young-Nam Kwag, Jong Won Jo, Chang Sun Kim, Soon-Ok Oh , Ju Yeong Park, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Korea; *Email: [email protected]

The living types of mushrooms could be divided into three types as saprophytes, symbionts and parasites in ecosystems. Studies on the diversity of mushroom in the forest have been carried out, but report of the diversity of mushroom on the specific plant stand is rare. In this study, we selected a Needle Fir (Abies holophylla) stand in the Gwangneung Forest in order to evaluate the fungal diversity based on macrofungal collection data, environmental factor data and pyrosequencing data. The plot was surveyed 16 times from 2013 to 2014. As a result, a total of 246 collected specimens were classified into 2 phyla, 6 classes, 13 orders, 44 families, 82 genera and 150 species. Among them, the predominant species was Amanita ceciliae (2.85%). The soil-fungal communities (belong to Ascomycota and Basidi- omycota) were classified into 2 phyla, 12 classes, 31 orders, and 53 families 76 genera and 109 OTUs (18,838 reads). Totally, 156 genera were detected in this plot. We found that only two genera (Auricularia and Pithya) were commonly detected between macrofungi and soil-fungal communities. We believe our study is useful for providing basic information on fungal community changes related to seasonal shifts in the Needle Fir stand, Gwangeung Forest.

A-4

Comparison of Ectomycorrhizal Fungal Communities isolated from Taxus cuspidata in Mt. Halla According to Vertical Distribution of Temperature

Hui-Chang Son and Ahn-Heum Eom* Department of Biology Education, Korea National University of Education, Cheongju, Chungbuk 28173, Korea; *Email: [email protected]

Climate changes have important consequences for plant communities and their root symbionts. The distribution of ectomycorrhizal fungi(ECM) within temperate, boreal and tropical biomes will be altered, as climate change. Taxus cuspidatas is climate-sensitive indicator species on the Korean peninsula that is native to sub-alpine mountain. Symbiosis with ECM is a vitally important component of the T. cuspidata’s survive, in which host plants provide fungal partners with carbon assimilated via photosynthesis in exchange for a range of services including enhanced water and nutrient uptake, protection from soil pathogens, and heavy metal tolerance. We studied the community distribution of ECM according to change of climate zone. We tried to find out the diversity and differences of communities of ECM living in temperate zone and sub-alpine climate zones. In this study, we investigated the ectomycorrhizal fungi community differences of the same host according to climatic zones, and tried to utilize them as basic data on preservation of T. cuspidata.

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A-5

Diversity of Korean Wild Mushrooms based on voucher specimens in Korea National Arboretum (KNA)

Chang Sun Kim, Jong Won Jo, Soon-Ok Oh, Ju Yeong Park, Young-Nam Kwag, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Republic of Korea; *Email: [email protected]

Most nearly 2,500 species of Korean wild mushroom were reported by illustrated books and some studies of mushroom flora with little morphological characteristics. It may be a reason why these day taxonomical study of Korean wild mushroom is difficult. In addition, most Korean recorded mushroom species have not been preserved as voucher specimens. Therefore, efforts of modern-taxonomic study and progressively collecting of voucher specimens are necessary for microbiological development of Korea. During a project of Korean wild mushroom diversity in Korea National Arboretum from 2012 to 2016, we has collected and preserved 22,633 mushroom specimens. These specimens were classified into 2 phyla 10 classes, 27 orders, 114 families, 444 genera, 1,732 species - including unidentified species until species-level. The ecological types were represented as follows: 63% saprophytes, 34% symbionts and 3% parasites. These data may constitute basic reference informing distribution of Korean wild mushrooms but, large gaps in our knowledge of Korean wild mushroom diversity and ecology still exist. Hence, it is necessary to continuously study Korean wild mushroom diversity in various habitats.

A-6

Comparative analysis for endophyte diversity between Mt. Baekryeon and Johang in Korea

Ju-Kyeong Eo1,2, Chang-Kyun Kim1 and Ahn-Heun Eom1* 1Department of Biology Education, Korea National University of Education, Chungbuk, 363-791, Republic of Korea; 2Division of Basic Research, Bureau of Ecological Research, National Institute of Ecology, Chungnam, 33657, Republic of Korea

We investigated an endophytes’ biodiversity of three Pinus densiflora (Pinaceae) and Junipreus rigida (Cupressaceae) in Mt. Baekryeon and Johang in Korea. Totally 76 isolates were discovered from 36 host plants and identified by ITS region and then they were checked into 30 taxa. Of them, 54% isolates were belongs to Leotiomycetes, 35% isolates Sordariomyetes, 5% isolates Agaricomycetes, 3% isolates Ustilaginomycetes and 3% isolates Eurotiomycetes. This result showed a similar diversity pattern with previous studies. We think that Lophodermium spp. are crucial components of endophyte in conifer host plants so need to more research for functional role between endophyte and conifer host plants.

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A-7

Characterization of Enriched Indigenous Microorganism for Application to Plant Growth and Disease Suppression

Win W. Nyein, Wilfred. M. Kawishe, Doo Hwan Kim, Se-Chul Chun1 1*Department of Bioresource and Food Science, Konkuk University, Gwangjin-gu, Seoul-143 701, Republic of Korea, *Email: [email protected]

The enrichment and characterization of indigenous microorganism (IMO) from forest humus was studied for plant growth and possible disease suppression. Cooked rice was covered with humus for baiting IMO, now as called IMO1. IMO1 was mixed with sugar at 7 days after incubation of IMO1 at room temperature, called IMO2. IMO2 was mixed with powdered rice bran and incubated for a week, named now as IMO3. IMO3 was mixed 1:1 ratio with agricultural crop soil for the plant growth, as now IMO4. IMO4 was applied to crop soil before planting crop. The microbial population of the cultivated crop soil applied with IMO4 (called natural farming soil) was studied and compared with conventional crop soil and organic crop soil using dilution plate technique. There was no difference in the population size of bacteria and fungi. However, Aspergillus, Penecillcium, and Rhizopus were more frequently isolated from natural and organic soil compared to conventional soil. It is speculated that difference in the types of fungal population structure and bacteria between conventional and natural farming soil may be related to plant growth and disease suppression.

Keywords : Indigenous Microorganism, Fungi, Natural Farming

A-8

Community Change of Endophytic Fungi Isolated from Abies Koreana inhabiting in Mt. halla

Dong Yeo Kim and Ahn-Heum Eom* Department of Biology, Korea National University of Education; *Email: [email protected]

Endophytic fungi inhabit the internal tissues of the host plant without harming. They act various biological functions such as promoting the growth of host plants and protecting plants against plant pathogens. The purpose of this study was to investigate the diversity of endophytic fungi inhabiting Abies koreana, which is the perennial evergreen tree distributed in the southern Korea as the endemic species. In this study, we isolated endophytic fungal strains from steri- lized leaves of Abies koreana collected from various sites in mt. Halla. The isolates were identified using morphological characteristics and sequence analysis of ITS region of rDNA. We isolated 266 strains and 32 species of endophytic fungi. There was a difference between high altitude community structure and low altitude community structure. This study is the first reports of endophytic fungi isolated from A. koreana inhabiting in mt. Halla, Jeju island.

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A-9

Endophytic Fungi Isolated from Roots of Korean Rosebay and Smile Rosebay in Mt. Minjuji

Hyeok Park and Ahn-Heum Eom* Department of Biology, Korea National University of Education; *Email: [email protected]

Endophytic fungi are a common name for fungi that live in plants and do not cause pathology. Although the exact symbiotic relationship between endophytic fungi and plants has not been well studied, endophytic fungi are known to protect plants from external threats such as predators and pathogens by using secondary metabolites such as mycotoxin. Because endophytic fungi live in various plants, so there are needed studies about endophytic fungi isolated from lots of plants. We isolated endophytic fungal strains from roots of two plants belong to family Ericaceae, Korean rosebay(Rhodo- dendron mucronulatum) and smile rosebay(Rhododendron schlippenbachii). The isolated strains were identified based on morphological characters and sequences analysis of ITS rDNA regions. As a result, 12 species from 11 genera were isolated from roots, and we confirmed that two endophytic fungal communities have different species composition. These results showed that different plants symbiosis with different endophytic fungal community.

A-10

The Community Structure of the Ectomycorrhizal Fungi Which are Symbiotic Relationship with Abies koreana along an Environmental Gradient in the Mt. Jiri

Jae-sung Shim and Ahn-Heum Eom* Department of Biology Education, Korea National University of Education, Cheongju, Chungbuk 28173, Korea; *Email: [email protected]

Ectomycorrhizal fungi(ECM) are microorganisms which mainly form a sysmbiotic relationship with woody plants. And they are the important microorganism contributing to the cycle of material of the forest ecosystem. ECM increase the environmental resistence capacity and supply the nutritious material required for the host plant and play a role that is essential to the ecosystem circulation. In this study, we investigate ECM isolated from Abies koreana regarded as the domestic endangered species. Roots of A. koreana were collected by altitude in Jeolla-do province: mt Jiri. We identified ECM through the morphological analysis and molecular analysis by 18s rDNA sequence of ectomycorrhizal root tips. In the host plant of 21 entities, the root tips of the total 63 morphotype were separated and 16 species from 9 genera were identified. The result of research showed the diversity of the community structure along an environmental gradient of the ectomycorrhizal fungi isolated from A. koreana. And it can be untilized as an important resource for preserve of A. koreana according to the environmental change.

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A-11

Arbuscular Mycorrhizal Fungal Distribution According to Salinity in Saemangeum Reclimed Land

Hyo-Kyung Lee and Ahn-Heum Eom* Department of Biology, Korea National University of Education; *Email: [email protected]

Arbuscular mycorrhizal fungi(AMF) are well-known for helping plants to adapt to salinity stress. Distribution of vegetation covering the lands is also considered to show certain different patterns according to the levels of salinity. Saemangeum reclaimed land reclamation is still in progress, so we have to choose the reclaimed land to non- agricultural land Locality. We collected 15 soil samples (soil and plants) to 200M intervals in the reclaimed land of land nearby. The species diversity of AMF was analyzed through restriction fragment length polymorphism. In this study, we investigated the impact of the levels of salinity to the distributions of AMF and vegetation.

A-12

Toxigenic potential of fungi associated with silage produced in Korea

Hyeonheui Ham*, Jiseon Baek, Mijeong Lee, Sung Kee Hong, Theresa Lee, and Soohyung Lee Microbial Safety Division, Department of Agri-Food Safety, Nation Institute of Agricultural Sciences, Rural Development Administration, Wanju, Korea; *Email: [email protected]

Silage can be contaminated by various toxigenic fungi and mycotoxins harmful to ruminants. Fungi can overgrow in silage if baled silage exposed to outside oxygen. To investigate toxigenic mycobiota and their toxigenicity in silage, a total of 77 samples of rice straw, Italian ryegrass, barley, and rye silage produced from 2013 to 2016 were investigated for fungal contamination. Sixteen out of 77 samples were spoiled visually with fungi. Samples were cut into the size of 1cm × 1cm, suspended in 0.1% peptone water, then spread onto malt extract agar to isolate and count fungal colonies. Fungal isolates were identified using Internal Transcribed Spacer, Beta-tubulin, or Calmodulin genes. PCR was performed to determine toxigenic potential of the isolated fungi by screening norB-cypA gene for aflatoxin, pks gene for ochratoxin and citrinin, fum1 gene for fumonisin, and idh gene for patulin. Toxigenic species were isolated from 8 spoiled samples (50%) and 14 clean samples (23%). Penicillium paneum was the most prevalent species and present in 8 spoiled samples and 10 clean samples ranging from 1 × 103 to 6.3 × 105 CFU/g. However, none of them had idh gene for patulin synthesis. Other toxigenic species isolated from clean samples include Aspergillus flavus (4.2 × 105 CFU/g), A. ochraceus (8.3 × 104 ~ 8.3 × 105), A. westerdijkiae (8.3 × 103 CFU/g), and Fusarium proliferatum (1 × 106 CFU/g). All the isolates except A. ochraceus had the expected toxin band amplified by PCR. These results indicate that toxigenic fungi are also present in unspoiled clean silage. Mycotoxin levels in the samples will be analyzed by HPLC.

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A-13

First report of Korean Ceriporia alachuana and Fibricium subseraceum

Sun Lul Kwon, Seokyoon Jang, Kyeongwon Kim, Chul-Whan Kim, and Jae-Jin Kim* Division of Environmental Science & Ecological Engineering, College of Life Science & Biotechnology, Korea University; *Email: [email protected]

Diversity of indigenous fungi in yeoninsan Provincial Park was investigated in 2016. During the study, several specimens which were not identified with Korean records were collected. Among them, two species: Ceriporia alachuana (Polyporales, Basidiomycota) and Fibricium subceraceum (Hymenochaetales, Basidiomycota) were identified by morphological and molecular biological analysis with LSU. Thus, we performed more detailed observation and phylogeny to report them as new in Korea. Figures of macro- and micro characteristics, and phylogenetic trees were provided.

A-14

Re-evaluation of Trichoderma harzianum species complex in Korea based on morphological and phylogenetic analysis

Seokyoon Jang1, Sun Lul Kwon1, Hanbyul Lee1, Myung Soo Park2, Young Woon Lim2, Changmu Kim3, and Jae-Jin Kim1* 1*Division of Environmental Science & Ecological Engineering, College of Life Science & Biotechnology, Korea University, 2School of Biological Sciences and Institute of Microbiology, Seoul National University, 3Biological and Genetic Resources Assessment Division, National Institute of Biological Resources; *Email: [email protected]

The genus Trichoderma (Hypocreaceae, Ascomycota) is world-wide distributed fungi, and about 27 species have been reported in Korea. T. harzianum had known as a most commonly collected and poly-phyletic species. Recently, other study revealed cryptic species in the Trichoderma harzianum species complex. Thus, we re-analysed recent cultures which identified as T. harzianum. As a result, they were newly identified as four species: T. afroharzianum, T. atrobruneum, T. pyramidale, and T. harzianum. The three species have not been reported in Korea. They are newly reported in Korea with description and figures.

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A-15

Isolation of Soil-fungi in Japanese Larch (Larix kaempferi) Stand, Gwangneung Forest

Ju Yeong Park, Chang Sun Kim, Jong Won Jo, Soon-Ok Oh, Young-Nam Kwag, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum; *Email: [email protected]

There are a lot of microbes in the forest soils. Therefore, soil environment is amazing store of biodiversity. Herein, we investigated the soils of Japanese larch (Larix kaempferi) stand in Gwnagneung Forest. Soil samples were divided into three layers: litter layer (L-layer; 0-2cm), humic layer (H-layer; 2-5cm) and between humic layer and mineral matter-layer (Ah-layer; 5-8cm). As a result, a total 91 isolates were collected from the defined plot (February 27, 2017). The obtained isolates were classified into 13 genera and 28 species based on fungal ITS region (formal DNA barcoding region for molecular identification; using ITS1F/ITS4 primer set). The dominat fungus was Umbelopsis isabellina (13.2%; belongs to Zygomycota) and it is new to Korea. Later, we will investigate the cultural characteristics and optimal growth condition of each isolated fungus.

A-16

Flora of Lichen in Jangyeol-ri Wind Hole (Gangwon-do, Korea)

Soon-Ok Oh1, Chang Sun Kim1, Jong Won Jo1, Young-Nam Kwag1, Ju Yeoung Park1, Jung Shin Park2, Jae-Seoun Hur2, and Sang-Kuk Han1* 1Forest Biodiversity Division, Korea National Arboretum, 2Korean Lichen Research Institute, Sunchon National University; *Email: [email protected]

Wind holes, from which cool air blows out during the summer, but mild air comes out during the winter, have provided the phytogeographically important refugia for cryophilous or cold-loving boreal flora during the Holocene period. 35 specimens were collected in this area. Among them, 15 lichen species were identified by morphological characteristics and analyses of TLC and ITS sequence. In this revised lichen flora of Wind Hole, all species are apparently new to the territory in this area. Among them, Solorina saccata are firstly reported in South Korea. All the collected specimens are deposited in Korea National Arboretum.

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A-17

Distribution of Higher fungi in Gyeongju National Park, Republic of Korea

Sang-Kuk Han*, Young-Nam Kwag, Jong Won Jo, Chang Sun Kim, Soon-Ok Oh, and Ju Yeong Park Forest Biodiversity Division, Korea National Arboretum; *Email: [email protected]

This study was conducted as a part of the regional higher fungi resource survey carried out by Korea National Arboretum. The survey of higher fungi had been performed at four mountain areas in Gyeongju National Park (ie., Mt. Tohamsan, Mt. Namsan, Mt. Danseoksan and Mt. Seondosan) two times from June to September, 2016. We collected 66 higher fungi specimens from the four research sites. And they were identified as 57species, 50 genera, 32 families, 16 orders and 5 classes based on sequences of internal transcribed spacer (ITS) and morphological characteristics. Among them, Erioscdyphella abnormis (Mont.) Baral, Šandová & B. Perić and Favolus acervatus (Lloyd) Sotome & T. Hatt. are recorded for the first time in Korea.

Keywords : fungal biodiversity, Gyeongju National Park, ITS, morphology

A-18

Two unrecorded Amanita species Belong to Subgenus Lepidella in Korea

Jong Won Jo, Chang Sun Kim, Soon-Ok Oh, Young-Nam Kwag, Ju Yeong Park, and Sang-Kuk Han* Forest Biodiversity Division, Korea National Arboretum, Pocheon 11186, Republic of Korea; *Email: [email protected]

We collected nearly 40 specimens of Amanita species belong to subgenus Lepidella during a diversity study of Korean mushrooms conducted in 2012 to 2014. Among them, 18 specimens belong to Amanita sect. Validae (8 specimens) and sect. Lepidella (10 specimens). And they were identified as A. castanopsidis, A. manginiana, A. oberwinklerana, A. pseudoporphyria, A. sphaerobulbosa, A. orsonii, A. rubescens, A. spissacea and A. sp. based on sequences of internal transcribed spacer (ITS) and morphological characteristics. Among others, A. orsonii Ash. Kumar & T.N. Lakh and A. sphaerobulbosa Hongo are recorded for the first time in Korea.

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A-19

Three novel species of Bremia originate from East Asian species of the Asteraceae

Ji-Hoon Park1, Hyeon-Dong Shin2, Hyang Burm Lee3, Marco Thines4,5, and Young-Joon Choi1* 1Department of Biology, Kunsan National University, Gunsan-si 54150, Korea; 2Division of Environmental Science and Ecological Engineering, College of Life Sciences and Biotechnology, Korea University, 02841 Seoul, Korea; 3Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; 4Goethe University Frankfurt am Main, Faculty of Biosciences, Institute of Ecology, Evolution and Diversity, Max-von-Laue-Str. 9, D-60438 Frankfurt am Main, Germany; 5Biodiversity and Climate Research Centre (BiK-F), Senckenberg Gesellschaft für Naturforschung, Senckenberganlage 25, D-60325 Frankfurt am Main, Germany; *Email: [email protected]

All species of the genus Bremia (Peronosporales; Oomycetes) parasitize diverse plants of the family Asteraceae. For more than one hundred years before previous studies that revealed unexpected phylogenetic diversity within this genus, Bremia was considered a monotypic genus, with only a well-known species, B. lactucae. During an investigation of diversity of Bremia species in Korea, we found three unknown specie of Bremia, each of which is parasitic to specific species of Asteraceae, namely Ixeris polycephala, Crepidastrum denticulatum, and Crepidastrum sonchifolium. Through a multi-loci-based analysis (ITS, LSU D1-3 rDNA, cox1, cox2, cox2-1 spacer mtDNA, and RxLR11 gene) and morphological characteristics, we introduce them as new species, Bremia orientalis (Ixeris polycephala), Bremia denticulata (ex Crepidastrum denticulatum), and Bremia koreana (ex Crepidastrum sonchifolium).

A-20

Diversity, phylogeny, and host-specialization of Hyaloperonospora species in Korea

Jae-Sung Lee1, Hyeon-Dong Shin2, Hyang Burm Lee3, and Young-Joon Choi1* 1Department of Biology, Kunsan National University, Gunsan-si 54150, Korea; 2Division of Environmental Science and Ecological Engineering, College of Life Sciences and Biotechnology, Korea University, 02841 Seoul, Korea; 3Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; *Email: [email protected]

The genus Hyaloperonospora (Peronosporeceae ; Oomycete) is an obligate biotrophic group, which causes downy mildew disease on Brassicaceae, especially, including many major crops, such as cabbage, radish, wasabi etc. To investigate the diversity of Hyaloperonospora in Korea, we performed a molecular phylogenetic analysis based on sequence data from ITS rDNA and cox2 mtDNA and morphological analysis of conidiophore and conidia. A total of fifteen species of Hyaloperonospora have been found in study, out of which six species, including three new combinations, turned out to be new to Korea, namely H. arabidis-glabrae comb. nov. (ex Arabis glabra), H. cleomes comb. nov. (ex Cleome spinosa) H. rorippae-palustris comb. nov. (Rorippa palustris), H. dentariae (ex Cardamine impatiens), H. nasturtii-mon- tani (ex Rorippa indica), and H. thlaspeos-arvensis (ex Thlaspi arvense).

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A-21

Comparison of Ectomycorrhizal Fungal Communities isolated from Abies koreana in Mt. Halla According to Vertical Distribution of Temperature

Ji-Eun Lee and Ahn-Heum Eom* Department of Biology Education, Korea National University of Education, Cheongju, Chungbuk 28173, Korea; *Email: [email protected]

Recently, a growing number of plants are under threat of becoming extinction in subalpine ecosystems due to climate change. Climate change affects plant root symbionts as well as vegetation structure. Abies koreana, endemic tree species of Korea, is considered as vulnerable and endangered species to recent a rapid climate change. Ectomycorrhizal(ECM) fungi have been known to take important functions to absorb water and nutrition in the place where plant roots do not reach and help plants to live in barren environments. But, the communities of ECM fungi within temperate, boreal and tropical biomes will be altered, due to climate change. The object of this study was the comparison of ECM fungal communities in roots of Abies koreana in temperate climate zone and subalpine climate zone. Roots of A. koreana were collected at Mt. Halla. ECM root tips were classified using morphotyping and identified using sequences of internal transcribed spacer(ITS) region of the fungal rDNA. In this study, we can confirm that the ECM fungal community of A. koreana roots is different between temperate climate zone and subalpine climate zone.

A-22

The first report of Hypomyces luteovirens, and H. tubariicola from Korea

Minkyeong Kim1,2, Chorong Ahn1, Eun Ju Woo1, and Changmu Kim1* 1*Microorganisms Resources Division, National Institute of Biological Resources, Incheon 22689, Korea, 2Division of Life Sciences, Incheon National University, Incheon 22012, Korea; *Email: [email protected]

Hypomyces (Sordariomycetes, Hypocreales) is the largest ascomycete genus of exclusively fungicolous fungi and which comprises about 53 species in the world. It was found in Europe, North America, Australia, and China, and only one species of genus Hypomyces (H. chrysospermus) have been reported in Korea, but we couldn’t check the specimen. It is characterized by forming bright or light coloured perithecia in a subiculum; cylindrical asci thickend at the apex; fusiform, apiculate, 0-1 septate and warted ascospore. Most species of Hypomyces have both teleomorph and anamorph. However, many species are known only one stage of its life cycle. Given that the morphological differences between telemorphs are not enough to identify species of the genus, molecular genetic studies are needed to delimit the genus. In this study, two species, H. luteovirens and H. tubariicola were described as new to Korea based on phylogenetic analysis of Internal transcribed spacer (ITS rDNA regions) sequence and macro and microscopic morphological characteristics. Thus, three Hypomyces species are have been reported in Korea.

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A-23

Investigation of Fungi from Imported Media Substrates Used for Mushroom Cultivation

Geunsick Lee1, Jun Young Kim1, and Seong Hwan Kim1,2* 1Department of Microbiology, University of Dankook; 2Institute of Biodiversity, University of Dankook, 119, Dandae-ro, Cheonan-si, Chungcheongnam-do, Republic of Korea; *Email: [email protected]

Recently, the import of media substrates used for mushroom cultivation has been increasing due to the cultivation in the plastic bags become popular in Korea. With the food safety concern, all the materials used for edible mushroom cultivation are subject to inspection. Therefore, this study was carried out to investigate the presence of harmful fungi in the media substrates (cottonseed meal, cottonseed hull, beet pulp, wheat straw and peat moss) imported from India, China, Egypt, Australia and Canada. Fungal concentration in the media substrates ranged from 8.3 x 100 to 1.7 x 105 CFU/g. Totally 15 genera and 19 species were identified. Aspergillus nidulans, A. terreus, Irpex lacteus and Ceriporia lacerate known as human pathogens and Bionectria ochroleuca known as a plant pathogen existed in the cottonseed meal from India. A. nidulans and I. lacteus also existed in the beet pulp from India. As other human pathogens, Paecilomyces variotii was isolated in the cottonseed hull from China and Alternaria longipes and Rhizopus oryzae were isolated in the beet pulp and wheat straw from Egypt and Australia, respectively.

A-24

The comparison of β-1,3-glucanase activity between mycovirus-cured Trichoderma harzianum NFCF319 and mycovirus-infected T. harzianum NFCF319

Han-Eul Yang, Yo-Han Ko, Kum-Kang So, So Yeun Choi, Jeesun Chun, and Dae-Hyuk Kim* Department of Molecular Biology, Department of Bioactive Material Sciences, Institute for Molecular Biology and Genetics, Chonbuk National University, Jeonju, Chonbuk 54896, Korea; *Email: [email protected]

In Korea, 315 fungal isolates were collected from contaminated sawdust bags and artificial logs used in cultivating shiitake (Lentinula edodes). The fungal isolates were analyzed for the existence of double-stranded RNA(dsRNA). dsRNA-specific chromatography and dsRNA-specific RNaseIII digestion were used for purifying and verifying dsRNA, respectively. A total of 32 isolates were detected and the molecular taxonomy of dsRNA-infected isolates indicated that all isolates belonged to the Trichoderma spp. The number and size of dsRNAs varied among isolates and the band patterns could be categorized into 15 groups. Although there were seven dsRNA groups observed in multiple isolates, eight groups were found to occur in single isolates. Northern blot analysis suggested that many different myco- viruses, which have not been identified yet, exist in Trichoderma. Trichoderma harzianum NFCF319 dsRNA, categorized under group IX and having a single band of dsRNA, was selected for sequencing. Furthermore, β-1,3-glucanase, a cell wall-degrading enzyme that controls plant pathogenic fungi was also estimated. Mycovirus-cured isolates and mycovirus-infected isolates were also collected for the comparison of β-1,3-glucanase activity. The β-1,3-glucanase activity of mycovirus-infected isolate was comparatively higher than that of mycovirus-cured isolate.

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A-25

A Report of 12 Unrecorded Endophytic Fungi of Korea

Eunsu Park1, Dongsu Yu1, Jideok Jang1, Sung Bae Park2, and Ju-Kyeong Eo1* 1Division of Basic Research, Bureau of Ecological Research, National Institute of Ecology, Chungnam, 33657, Republic of Korea; 2Nakdong Estuary Eco-Center, Busan 49435 , Republic of Korea

Bulrush(Scirpus spp.) is an important food sources for winter visitors such as Anser cygnoides. Bulrush is distributed some poor environments to survive so it is thought that the plant have some fungi to do multi-functional roles for growth. It is crucial to reveal fungal species in plant tissues for basic and applied science. To verify fungal species, it was conducted to evaluate DNA sequence(ITS) and morphological observation. We found 12 unrecorded endophytic fungi from living bulrush in Korea: Cladosporium perangustum, Stagonospora paludosa, Phanerochaete sordida, Phlebia acerina, Paraphaeosphaeria spartii, Acremonium sclerotigenum, Cladosporium tenuissimum, Cladosporium-ramotenellum, Stem- phylium nabarii, Cladosporium coralloides and Phaeosphaeria typharum According to our results, we will use to study for functional mechanisms of endophytes in plant for the future.

A-26

Eleven New Records of Fungal Isolates from Field Soil in Korea

Hyun Gu Lee, Mahesh Adhikari, Hyun Seung Kim, Sun Kumar Gurung, Setu Bazie, and Youn Su Lee* Division of Biological Resources Sciences, Kangwon National University, Chuncheon 24341, Korea; *Email: [email protected]

A fungal diversity study was carried out to check the species diversity in the field soils of Sancheong, Jeju-do, Ulsan, Yangpyeong, Hapcheon and Changnyeong, Korea in 2017. In total, 304 soil samples were collected and isolated in ‘Plant Microbiology and Biotechnology’ lab of ‘Kangwon National University’. Genomic DNA of the isolates were extracted by using QIAGEN® Plasmid Mini Kit(QIAGEN Sciences, USA) and the identification of fungi was carried out by sequence analysis of internal transcribed spacer (ITS) region of the 18S ribosomal DNA (18S rDNA). 214 fungal isolates were identified and among them 11 fungal isolates were not officially recorded in Korea. So we report here all the 11 fungal isolates as a new record from Korea. Psilocybe coprophila (KNU17-1), Torula herbarum (KNU17-5), Penicillium citreonigrum (KNU17-68), Westerdykella reniformis (KNU17-72), Exophiala xenobiotica (KNU17-79), Talaromyces variabilis (KNU17-154), Penicillium qii (KNU17-155), Westerdykella purpurea (KNU17-160),), Lectera colletotrichoides (KNU17-189), Myrothecium verrucaria (KNU17- 199) and Talaromyces veerkampii (KNU17-180) were the discovered isolates from various places of Korea. All the newly identified isolates were matched more than 95% with the nucleotide sequences in BLAST (Basic Local Alignment Search Tool) program. The pure cultures of all the newly identified isolates were preserved on 20% glycerol stock at 4°C for further studies.

Keywords : Diversity, Identification, Nucleotide

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A-27

A New Mucoralean Fungal Species Isolated from Feces of Grasshopper in Korea

Seo Hee Lee, Thi Thuong Thuong Nguyen, and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture and Life Sciences, Chonnam National University, Gwangju 500-757, Korea; *Email: [email protected]

In a survey of the diversity of zygomycetes in Korea, a fungal strain EML-SFB2 was isolated from feces of grasshopper collected at Sochon-dong, Gwangju in Korea. To identify the strain at the species level, detailed morphological study and rDNA sequence analyses were performed. Sequence analysis by BLASTn search of the ITS sequences were 97.9 % (570/582 bp) and 96.8 % (213/220 bp) identical to Mucor sp. (GenBank accession no. HM999964) and Backusella lamprospora (GenBank accession no. KU556105). In case of sequence analysis by BLASTn search of the LSU sequences were 96.7 % (625/646 bp) and 96.4 % (582/604 bp) identical to Pilaira caucasica (GenBank accession no. JN206532) and B. recurva (GenBank accession no. JX644497). The phylogenetic tree based on ITS and LSU rDNA sequences, the strain EML-SFB2 formed a separate branch different from other species of Backusella showing that the isolate is new to science. In morphology, the EML-SFB2 isolate was different with related species including B. lamprospora and B. recurva by having smaller sporangia. The multispored sporangiola of the isolate were larger than B. lamprospora. B. recurva. Especially, the number of sporangiospores per sporangiolum of the EML-SFB2 isolate were less than B. lamprospora. Our study showed that the EML-SFB2 isolate was confirmed as a new zygomycete fungus.

A-28

A New Record of Ascodesmis sphaerospora Isolated from a Soil Sample Collected at Dokdo Island, Korea

Hoa Thi Pham, Thuong T.T. Nguyen, and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; *Email:[email protected]

While evaluating the diversity of fungi from a soil sample collected at Dokdo Island, Korea, an ascomycete strain EML-DDSFP14-1 belonging to Pezizales was isolated. The isolate was identified based on the morphological characteristics and 28S rDNA sequence analysis. Sequence analysis by BLASTn search indicated that the EML-DDSFP14-1 isolate was closest to Ascodesmis sphaerospora (GenBank accession no. AB476417) with identity value of 99.6% (584/586 bp). The strain grew rapidly at 25°C on PDA, filling the petri dish after 4-5 days of incubation. The initial color of the colony was white and later turned to grayish white. Asci were clavate, oblong or ovoid, and measured 40-62 × 18-24 μm. Each asci contained 4-8 ascospores. Ascospores were globose to subglobose, and measured 10-12 × 9-11 μm. Based on the morphological characteristics and phylogenetic analysis of 28S rDNA sequences, EML-DDSFP14-1 isolate was identified as an undescribed species, Ascodesmis sphaerospora in Korea.

Keywords : Ascodesmis sphaerospora, Dokdo island, Soil fungi

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A-29

Two New Records of Ascomycete Fungi from Freshwater Samples in Korea

Hyo Jin Lim, Thuong T.T. Nguyen and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; *Email: [email protected]

In a survey of fungal diversity in freshwater, two isolates of EML-MSW11-6-2 and EML-CNUP1-1 were isolated from freshwater samples collected at Wonhyo valley located in Mudeung Mt., and water sample from a small pond on Chonnam National University campus, Gwangju, respectively in Korea. The colony of EML-MSW11-6-2 was white to yellow, reaching 18 mm in diameter after 14 days culture at 25oC. Conidiogenous cells were terminal or lateral, mono- phialidic, obclavate, flexous, measured 4 (8.53)-15 × 1 (2.28)-3 μm. Conidia were ovoid, cylindrical to oblong, measured 3 (5.75)-6 × 1 (2.59)-4 μm. The colony of EML-CNUP1-1 was greyish, filling the petri dish after 14 days culture at 25oC. Conidiogenous cells were ampuliform or cylindrical, measured 8.4-11.3 × 2.5-3.8 μm. Conidia were subcylind- rical, 3 to 4 septate, measured 18.3-24.2 × 3.1-4.2 μm. Sequence analysis of the rDNA ITS by BLASTn search indicated that EML-MSW11-6-2 and EML-CNUP1-1 isolates were closest to Cadophora novi-eboraci (GenBank accession no. KM497036) and Bartalinia robillardoides (GenBank accession no. NR_126145), with identity value of 99.6% (584/586 bp) and 99.6% (539/541 bp), respectively. Based on the morphological characteristics and sequence analysis of the internal transcribed (ITS) regions, the isolates EML-MSW11-6-2 and EML-CNUP1-1 were identified as C. novi-eboraci and B. robillardoides. To our knowledge, the species of C. novi-eboraci and B. robillardoides have never been previously described in Korea.

Keywords : B. robillardoides, Cadophora novi-eboraci, Freshwater, Morphology, Undescribed Species

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A-30

Two Unrecorded Species of Acremonium: A. persicinum and A. variecolor from Soil Samples in Korea

Se Won Park, Tham Thi Duong, Thuong T. T. Nguyen and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; *Email: [email protected]

During a survey of fungal diversity of order Hypocreales in Korea, two Acremonium strains, EML-1YSRS2-4 and EML-GSNPF3-1, were isolated from a soil sample collected at Yeongsan riverside located in Naju, and a forest soil sample in Gunsan, Korea, respectively. Acremonium is the largest genus within the Hypocreales. Its taxonomy has not been firmly resolved yet. The colony of EML-1YSRS2-4 was initially white and then changed to brown, reaching 62 mm in diameter after 15 days culture at 25oC. The colony of EML-GSNPF3-1 was initially white and then changed to light pinkish with age, reaching 53 mm in diameter after 15 days culture at 25oC. Based on the morphological characteristics and sequence analysis of the internal transcribed (ITS) regions, the isolates EML-1YSRS2-4 and EML-GSNPF3-1 were confirmed as A. variecolor and A. persicinum, respectively. BLASTn search of the rDNA ITS sequences via NCBI database indicated that the isolates, EML-1YSRS2-4 and EML-GSNPF3-1 matched A. variecolor (GenBank accession No. HE608647), and A. persicinum (GenBank accession No. KF993390), with similarity values of 99.5% (189/190 bp) and 98.3% (474/482 bp), respectively. Conidiophores of EML-1YSRS2-4 were erect, mostly branched, bearing whorls of up to 5 phialides. Phialides were straight or acicular, measured 1-2 μm wide × 18-95 μm long at the base. The conidia were subglobose or ovoid, measured 2.25-4.35 μm wide × 2.54-5.08 μm long. On the other hand, conidiophores of EML-GSNPF3-1 were erect, simple or branched. The conidia were oval, measured 1-2 μm wide × 2.5-3 μm long. To our knowledge, the species of A. variecolor and A. persicinum are newly recorded species in Korea. More works on the phylogenetic analyses of more indigenous Acremonium species are needed.

Keywords : Acremonium variecolor, Acremonium persicinum, Fungal diversity, Forest soil, Riverside soil

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A-31

Two undescribed species belonging to Chaetomiaceae: Chaetomium trigonosporum and Amesia nigricolor

Sun Jeong Jeon, Tham Thi Duong, and Hyang Burm Lee* Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; *Email: [email protected]

So far, there are about 400 Chaetomium species and 4 Amesia species described in the world. In this study, four isolates including EML-16CMS4-1-1, EML-16CMS4-1-2, EML-NDR3-GF-1-1, and EML-NDR3-GF-1-2 were isolated from soil sample collected at Chilgap Mt. and freshwater sample collected at Nakdong river, respectively in Korea. Sequence analysis of ITS rDNA regions by BLASTn search indicated that EML-16CMS4-1 and EML-16CMS4-1-2 isolates were closest to Chaetomium trigonosporum (GenBank accession no. KX009486) with identity value of 99.8% (505/506 bp), and EML-NDR3-GF-1-1 and EML-NDR3-GF-1-2 were closest to Amesia nigricolor (GenBank accession no. KX394556 and EU543258) with identity values of 99.7% (489/490 bp) and 100% (545/545 bp), respectively. Perithecia of EML-16CMS4-1 isolate were globose or subglobose to somewhat elongated. Terminal hairs were straight, unbranched, longer than the lateral ones, regularly septate to near the tips. Asci were narrowly and irregularly club-shaped, containing 8-spores. Ascospores were triangular, and measured 4.4-6.3 × 8.0-10.9 (av. 5.2 × 9.5) μm. Perithecia of EML-NDR3-GF-1 isolates were subglobose to ovate. Terminal hairs undulate to loosely coiled with erect or flexuous lower part. Asci were fasciculate, clavate to fusiform, with 8 irregularly ascospores. Mature ascospores were ovate, and measured 1.9-3.2 × 2.7-4.97 (av. 2.5 ×3.1) μm. Based on the morphological characteristics and phylogenetic analyses of multigenes including beta-tubulin (BenA) and RPB2, the EML-16CMS4-1-1 and EML-16CMS4-1-2 isolates were confirmed as C. trigonosporum, and EML- NDR3-GF-1-1 and EML-NDR3-GF-1-2 as Amseia nigricolor. The two fungal species have never been previously described in Korea.

Keywords : Chaetomium trigonosporum, Amesia nigricolor, Morphology, Multigenes

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A-32

Two Unrecorded Species of Fungi from Grasshopper Fecal Samples in Korea

Thuong T.T. Nguyen and Hyang Burm Lee* Division of Food Technology, Biotechnology and Agrochemistry, College of Agriculture & Life Sciences, Chonnam National University, Gwangju 61186, Korea; *Email:[email protected]

In a survey of fungal diversity in Korea, two isolates of EML-GHD83-1 and EML-GHD05-1 were isolated from grasshopper fecal samples collected at Chonnam National University Arboretum, Gwangju, Korea. To identify them at the species level, detailed morphological study and rDNA sequence analyses were performed. BLASTn search indicated that the identity values of rDNA ITS and 28S rDNA sequences of EML-GHD83-1 and EML-GHD05-1 isolates were 98.4% (570/579 bp) and 99.1% (819/826 bp), 98.2% (343/349 bp) and 99.6% (854/857 bp), respectively. EML-GHD83-1 isolate was identical to Albifimbria terrestris (GenBank accession no. KU845884 and KU845902), and EML-GHD05-1 isolate was identical to Chaetomella raphigera (GenBank accession no. KF193633 and AY487077). Our study showed that the EML-GHD83-1 and EML-GHD05-1 isolates were identified as unrecorded species, A. terrestris and C. raphigera, in Korea.

Keywords : Albifimbria terrestris, Chaetomella raphigera, Fungal diversity, Grasshopper feces

A-33

A new lichenicolous fungus, Phaeopyxis subpunctum, from Mount Washington in New Hampshire, U.S.A.

Beeyoung Gun Lee1, Dale A. Kruse2, and Jae-Seoun Hur1* 1Korean Lichen Research Institute, Sunchon National University, Suncheon 57922, Korea; 2S.M. Tracy Herbarium (TAES), Texas A&M University, 2138 TAMU; *Email: [email protected]

Phaeopyxis subpunctum Lee & Hur is described as a new species from Mount Washington, New Hampshire in the United States. The new lichenicolous fungus has black to dark brown, superficial, and rounded apothecia above the thalli/podetia of the host Cladonia ochrochlora and C. rei. Particularly, P. subpunctum represents short ascospores, long pycnoconidia, I+ yellow orange hymenium with orangish-red ascus/spore and slightly blue hamathecium in comparing with P. punctum. As a new record to North America, another noteworthy lichenicolous species Arthonia apotheciorum was discovered on the host Lecanora polytropa. An artificial key for the new species is provided and diagnostic characteristics are discussed.

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A-34

Rinobuellia boseongensis gen. et sp. nov. and Sculptolumina coreana sp. nov., two new corticolous buellioid members of the Caliciaceae (Lichenized Ascomycota) from Eastern Asia

Dong Liu1, Sergey Y. Kondratyuk2, Huan Wang3, László Lőkös4, Josef P. Halda5, Min Hye Jeong1, Jung Shin Park1, and Jae Seoun Hur1* 1* Korean Lichen Research Institute (KoLRI), Sunchon National University, Sunchon 57922, Korea; 2M. H. Kholodny Institute of Botany, 01601 Kiev, Ukraine; 3 Engineering Research Center of Chinese Ministry of Education for Edible and Medicinal Fungi , Jilin Agriculture University, Changchun 130118, Jilin Province, China; 4Department of Botany, Hungarian Natural History Museum, H-1476 Budapest, Hungary; 5Muzeum a galerie Orlických hor, Jiráskova 2, 516 01 Rychnov nad Kněžnou, Czech Republic; *Email: [email protected]

The genus Buellia in broad sense is a rich-species group, and polyphyletic in strict sense, while several genera were originally separated from Buellia inner groups, the phylogenic relationship between them is not still well resolved. Several buellioid specimens were collected from South Korea during the field survey, and morphology, chemical identification (including Thin Layer Chromatography (TLC) and High Performance Liquid Chromatography (HPLC)), and phylogenic analyses were conducted in order to confirm their system position, eventually, the result infers as following: a). one new genus Rinobuellia S.Y. Kondr., Liu D. & J.-S. Hur, two new species R. boseongensis Liu D., S.Y. Kondr. & J.-S. Hur and Sculptolumina coreana Liu D., S.Y. Kondr. & J.-S. Hur were proposed, and b). the detail description, illustration and comparison with closely related taxa were also given in this study, and c). the relationship of segregates was discussed, and it seems that the genera Rinobuellia, Sculptolumina and Tetramelas were monophyletic respectively.

A-35

Characterization of Endophytic Fungi Isolated from Native Plants in Dokdo Island, Korea

Nan Yeong Lee, Hye Rim Choi, Min Ji Jeong, Doo Ho Choi, and Jong-Guk Kim* School of Life Science, Kyungpook National University, Daegu 701-701, Korea; *Email: [email protected]

Three plant species; Sedum takevimense, Sedum oryzifolium, Aster spathulifolius were collected in Dokdo island, Korea. The endophytic fungal strains were isolated from the roots of these plants. For identification of isolated endophytic fungi, the internal transcribed spacers (ITS) regions of isolates were amplified and amplified fragments were sequenced. The total 70 strains of isolates were classified as 2 phyla 3 class 6 orders 8 family 11 genera. The largest genus of total isolates was the genus penicillium as 52.86%, followed by Mucor as 12.86%. Furthermore, using 5 statistical methods, the diversity and richness of isolates were calculated at the genus level. The Shannon diversity index (H’) was used for analyzing the diversity of endophytic fungi isolated from the roots. The plant Sedum oryzifolium had the highest diversity indices as 1.57, which indicates that the endophytic fungal community isolated from root of this plant had the most diversity among the endophytic fungal community isolated from our plant samples. Margalef’s index (Dmg) was used for analyzing the species richness of endophytic fungi isolated from the roots of plant. The endophytic fungal community isolated from Aster spathulifolius had the most species richness (Dmg = 2.07). This study provides basic data to understand symbiotic relationship with endophytic fungi and plants.

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A-36

Phylogenetic Relationship of the Genus Phellinus strains isolated in Korea and their morphological and cultural characteristics

Gyeongjin Min1, Soon-Ja Seok3, and Heewan Kang1.2* 1Graduate School of Bio.&Information Technology, Hankyong National University, Ansung 456-749, Korea; 2JK BioTech Co. Ltd.Hankyong National University, Ansung 456-749, Korea; 3Agricultural Microbiology Division, National Academy of Agricultural Science (NAAS), Rural Development Administration (RDA), Wanju 565-851, Korea

The ITS1, ITS4 and 5.8S ribosomal DNA sequences from 39 Phellinus strains collected in Korea were compared with ITS sequences on GenBank database. ITS rRNA gene regions from different Phellinus species varied from 550 to 650 bp. The phylogenetic tree based on the ITS region could classified into 11 different species, Fomitiporia punctata, F. senex, Phellinus linteus, P. lonicericola, P. vanigini, P. weigelae, P. baumii, P. hartigii, P. robustus, and P. tubercu- losus. Morphological and cultural characteristics of Phellinus spp. was investigated on YGM media. Seven Phellinus species including P. baumii and P. linteus isolates showed rapid growth rate on the medium compared to other Phellinus spp. Of them, P. linteus isolates, HK1009K, Korea Sanghwang and HK6036K and P. baumii isolate formed fruiting bodies on oak logs in a year after cultivation.

A-37

Korea Mushroom Resource Bank

Young Ju Min, Nam Kyu Kim, Jae Young Park, Young Woon Lim* School of Biological Sciences, Seoul National University, Seoul 151-747, Korea

The Korea Mushroom Resource Bank (KMRB) was launched as a national research resource bank in 2015 by the Ministry of Science, ICT and Future Planning. The main goal of the KMRB is to secure important biological resources, mushroom-forming basidiomycota, significant sources of fundamental and novel substances and materials, as dried specimen, cultures, and genomic DNA. For wider application of fungal resources in education, medicinal and industrial uses, the KMRB will undertake following tasks: 1) Survey natural environments across Korea to catalogue mushroom diversity, 2) Establish resource management system based on accurate identification of mushroom, 3) Evaluate the usefulness of the discovered mushroom, 4) Create a secure preservation and loan system. With a global focus on utilizing natural resources, mushroom resources provide excellent opportunities for academic research, and discovering novel substances for use as medicine and energy.

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A-38

Marine Fungal Resource Bank

Ji Eun Eom, Jae Young Park, Myung Soo Park, Young Woon Lim* School of Biological Sciences, Seoul National University, Seoul, 151-747, Korea

The Marine Fungal Resource Bank (MFRB), overseen by Dr. Young Woon Lim at Seoul National University, was designated as a marine bioresource bank of Korea by the Ministry of Oceans and Fisheries. The main goal of the MFRB is to establish a culture collection of marine fungi for educational, scientific, and industrial purposes. MFRB will undertake following tasks: 1) Survey marine environments across Korea to catalogue marine fungal diversity, 2) Establish a robust system of polyphasic species identification, 3) Evaluate the usefulness of the discovered fungi, 4) Create a secure preservation and loan system, 5) Provide web-based access to the database. With a global focus on utilizing natural resources, marine fungal resources provide excellent opportunities for educating the public on marine ecosystem, vitalizing marine research, and discovering novel substances for use as medicine and energy. **This work was supported by the Marine BioResource Bank Program of the Ministry of Ocean & Fisheries.

B-1

Plant growth promotion and biocontrol activity by Aspergillus spp. in tomato plants

Da Jeong Shin, Sung-Je Yoo, and Mee Kyung Sang* Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration, Wanju 55365, South Korea; *Email: [email protected]

Biocontrol by indigenous fungi is one of the strategies for protecting plants from disease and promoting plant growth. We isolated 49 fungal isolates from rhizophere soil of paprika in Jin-ju, 2016, and pre-selected 14 isolates by phytotoxicity test to tomato plants. We tested antifungal activity of filtered fungal broth and then, we compared antifungal activity of filtered to that of autoclaved fungal broth to confirm heat-stability of fungal broth. Through phytotoxicity and antifungal assay, we selected four isolates as potential biocontrol fungi. The four isolates were identified as Aspergillus spp. through phylogenetic analysis using ITS and β-tublin genes. In tomato plant test, surface sterile tomato seeds were treated with 107 spores/ml of fungi and grown in pots for four weeks. Among four isolates, one increased tomato fresh weights and reduced tomato bacterial wilt caused by Ralstonia solanacearum. Therefore, one isolate of tested Asper- gillus spp. can be a potential biocontrol and PGPF agent in tomato plants.

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B-2

Induced resistance/tolerance to biotic and abiotic stresses by rhizobacterial strains and their crude extracts in tomato plants

Sung-Je Yoo, Jaekyeong Song, Hang-Yeon Weon, and Mee Kyung Sang* Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration, Wanju 55365, Korea; *Email: [email protected]

Plants are constantly exposed to a variety of biotic and abiotic stress conditions. To protect themselves from these stresses, plants could interact with other organisms including rhizobacteria in same niches. In our previous studies, we pre-selected 15 bacterial strains which have adaptability and induced tolerance to salinity or temperature stresses in tomato plants. In this work, we selected four among 15 strains, and tested effect of methanol crude extracts of these strains on inducing tolerance to abiotic stress in tomato plants. As a result, seed treatment of methanol extract (1ppm) of H20-5 and drench treatment of the extract (100ppm) of 5GH 41-07 were significantly effective to abiotic stress in tomato plants. To assess effect on biotic stress as well as abiotic stress including salinity and temperature stress, we evaluated biocontrol activities of the selected rhizobacteria against Ralstonia solanacearum in tomato, Phytophthora capsici in chili pepper, and Pectobacterium carotovorum subsp. carovovorum Pcc21 in Chinese cabbage. Four, five and two bacterial strains significantly reduced disease in tomato, chili pepper, and Chinese cabbage, respectively. Further study about plant signal pathway including gene expression and hormone accumulation in abiotic and biotic stress conditions will be conducted.

B-3

Characterization of The Ginseng Root Rot Fungus Cylindrocarpon destructans and The Effect of Fungicides on Mycelial Growth

Jong-Hwan Shin, Gi-Chang Park and Kyoung Su Kim Divsion of Bioresource Sciences, Kangwon National University, Chuncheon 24341, South Korea; *Email: [email protected]

Root rot disease caused by a filamentous fungus Cylindrocarpon destructans is one of the most destructive diseases on the Korean ginseng (Panax ginseng C.A.Meyer). To characterize of the fungus, a total of 12 isolates of C. destructans were isolated from diseased ginseng roots in different regions of Gyeonggi-do, Chungcheongbuk-do, and Kangwon-do. The colony diameter of C. destructans isolates were 5.81 to 9.8 cm on potato dextrose agar (PDA) and the conidial length were 10.04 μm to 15.38 μm on V8 agar (V8A). To find out effective fungicides on the pathogen, in vitro antifungal effects on mycelial growth with six fungicides (prochloraz, benomyl, iprodione, azoxystrobin, mancozeb, and thiophanate-methyl) were investigated. The imidazole fungicide prochloraz and benzimidazole fungicide benomyl were the most effective fungicides at concentration of 10 μg/ml (78% and 86% inhibition of mycleial growth, respectively), whereas the thiophanate fungicide thiophanate-methyl was the least effective fungicide (18% inhibition of mycelial growth). Iprodione, azoxystrobin, and mancozeb showed 42%, 42%, and 36% inhibition of mycelial growth at concentration of 10 μg/ml, respectively.

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B-4

Broad-spectrum biocontrol activity and characteristics of plant growth-promoting rhizobacteria

Ji Eun Mun, Jaekyeong Song, Hang-Yeon Weon, Mee Kyung Sang* Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration, Wanju 55365, South Korea; *Email: [email protected]

Plant growth-promoting rhizobacteria (PGPR) can help plant growth and protect from phytopathogens. In previous studies, four strains were selected as PGPR and biocontrol agents against soil borne pathogens, Phytophthora capsici and Ralstonia solanacearum. We identified four strains by 16S rRNA sequencing and checked the characteristics of phosphate solubilization, ACC deaminase, IAA production, swimming and swarming activities. We conducted plant assay for biocontrol activity of bacterial crude extract in tomato plants against Ralstonia solanacearum. As a result, two bacterial extracts reduced bacterial wilt caused by R.solanacearum in tomato plants. To evaluate broad spectrum of selected bacterial strains, two types of crops were used; cucumber for testing induced tolerance to salt stress, Chinese cabbage for biocontrol activity against Pectobacterium carotovorum subsp. carotovorum and Plasmodiophora brassicae. The selected strains will be further studied about biocontrol activity under field conditions.

B-5

New Record of Anthracnose Caused by Colletotrichum liriopes on Broadleaf Liriope in Korea

Sang-Keun Oh* Department of Applied Biology, College of Agriculture & Life Sciences, Chungnam National University, Daejeon 34134, Korea *Correspondence: [email protected]

In the summer of 2015, a suspected anthracnose disease was observed in Maekmundong plants in a field of Chung- cheongnam-do (Cheongyang), Korea. The symptoms on leaves were characterized by small patches with reddish brown speckles on leaves at an early stage of infection, followed by the subsequent spread and irregular enlargement of spotted lesions with dark brown discoloration and coalescence of spots throughout the leaves, resulting in black acervuli at a later stage. The fungus was isolated and identified as Colletotrichum liriopes from L. muscari based on morphological characteristics and nucleotide sequence data of Internal transcribed spacer (ITS rDNA regions), Glyceraldehyde-3- phostphate dehydrogenase (GAPDH gene) and Actin (ACT gene). The fungus isolated from diseased portions were revealed to be pathogenic to the host plants through pathogenicity tests, and reisolation of pathogen confirmed Koch’s postulates. Pathogenicity tests validated C. liriopes was pathogen for L. muscari. To the best of our knowledge, this is the first report of C. liriopes isolated from L. muscari in Korea.

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B-6

First report of Colletotrichum fructicola causing anthracnose on chilli pepper in Korea

Jae Geum Lee1, Hyo Won Kim1, Young Kee Lee1, Sung Kee Hong2, Jeomsoon Kim1, and Hyo-Won Choi1* 1Crop Protection Division, National Institute of Agricultural Sciences, Wanju 55365, Korea; 2Microbial Safety Team, National Institute of Agricultural Sciences, Wanju 55365, Korea; *Email: [email protected]

To investigate the diversity of Colletotrichum species associated with anthracnose of chilli peppers in Korea, twenty-two isolates were collected from in Cheongju, Sangju, Wanju, and Hwaseong in 2016. Out of these, only one isolate was identified as C. gloeosporioides species complex, and others were identified as C. acutatum species complex based on morphological characteristics. Conidia of the isolate C01008 within C. gloeosporioides species complex were single celled, cylindrical with rounded based and apex, and size of conidia was 9.8-18.3 × 4.0-5.8 μm. The isolate was confirmed as C. fructicola absed on MLST using clamodulin (CAL), beta-tubulin (TUB2) and ITS/5.8S rDNA region. The isolate clustered with the reference strain of C. fructicola. Pathogenicity test was carried out on wounded or unwounded chilli pepper fruits using spore suspension. The appearance of disease symptoms were observed on only wounded fruits within 7 days after inoculation. To our knowledge, this is the first report of the association of C. fructicola in causing chilli pepper anthracnose in Korea, although the isolation frequency is very low compared to C. acutatum species complex.

B-7

First report of Fusarium fujikuroi associated with Fusarium wilt on soybean in Korea

Hyo Won Kim1, Jae Geum Lee1, Young Kee Lee1, Sung Kee Hong2, Jeomsoon Kim1, and Hyo-Won Choi1* 1Crop Protection Division, National Institute of Agricultural Sciences, Wanju 55365, Korea; 2Microbial Safety Team, National Institute of Agricultural Sciences, Wanju 55365, Korea; *Email: [email protected]

To investigate and identify Fusarium species associated with Fusarium wilt of soybean in Korea, wilted soybean samples obtained from four provinces in 2014-2016. Total fifty-three Fusarium species were isolated from affected tissues. Four isolates were identified as F. fujikuroi species complex, and the others were F. graminearum species complex, F. oxysporum species complex, and F. solani species complex based on morphological characteristics. Out of these, all isolates of F. fujikuroi species complex were confirmed as F. fujikuroi based on DNA sequence analysis using elongation factor 1 alpha gene (TEF) and the second largest subunit of RNA polymerase II gene (RPB2). Pathogenicity tests were carried out on soybeans using root-dip inoculation and soil inoculation methods. Wilting symptoms of soybeans were observed on only inoculated plants within 7 days after inoculation regardless of the inoculation method. Because F. fujikuroi is known to cause bakanae on rice, the isolates were also tested against rice seeds using the seed-dip inoculation method in vitro. The typical symptoms were such as elongation of seedlings observed within 2 weeks after inoculation. To our knowledge, this is the first report of soybean Fusarium wilt caused by F. fujikuroi and its potential to cause the cross infection with soybean and rice in Korea.

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B-8

Biological Characterization of Entomopathogenic Fungi Having High Virulence against Two Aphid Species

Tae-Young Shin, Byung-Ju Lee, Ji Hee Han, Jeong Jun Kim*, and Sang Yeob Lee Agricultural Microbiology Division, National Institutes of Agricultural Sciences, Rural Development Administration, Korea; *Email: [email protected]

Aphids are economically important pests in greenhouse crops because of sucking saps and plant pathogenic viral transmission. Outbreak of aphids becomes a serious problem due to the continuous use of chemical pesticides resulting in resistance. Entomopathogenic fungi are useful natural pathogens which can suppress pest population in nature. Recently these fungi have been developed as bio-pesticides to control aphid as a part of integrated pest management program. Therefore we screened domestic entomopathogenic fungi to select high virulence isolates against green peach aphid, Myzus persicae and cotton aphid, Aphis gossypii. As a result, 2 isolates named Isaria javanica Pf185 and Isaria fumosorosea Pf212 showed more 80% mortality on both aphids in laboratory bioassay. We identified these isolate by morphological examinations and genetic identification using sequences of ITS region and beta-tubulin gene. We investigated activity and stability of the selected isolates against temperature and ultraviolet because the fungi generally influenced by environmental conditions, such as temperature and ultraviolet, and cause slow and fluctuating mortality. As a result, fungal conidia and mycelia were stable at 20~35°C. However both fungi could not be activated after 1 h emission of ultraviolet and also heat treatment at 45°C for 1 h. These results can be used as a guideline for evaluating fungal control efficacy against aphid under greenhouse condition.

B-9

High Virulence Isolates of Entomopathogenic Fungi for the Microbial Control of Spodoptera litua

Jihee han*, Jeong Jun Kim, Dayeon Kim, Seongho ahn and Sang Yeob Lee Agricultural Microbiology Division, National Institute of Agricultural Sciences, RDA, Wanju, 55365, Republic of Korea; *Email: [email protected]

The tobacco cutworm, Spodoptera litura is polyphagous sporadic pest and difficult to control using chemical insecticides because of the development of insecticide resistance against almost all the insecticide group. For environmental friendly control of tobacco cutworm, entomopathogenic fungi could be used as alternative. We conducted bioassays to select high virulent isolate to larva of tobacco cutworm with twelve entomopathogenic fungi which were isolated from soil samples by insect-bait method. As a result of bioassay all twelve isolates showed high mortality as

100% and short medial lethal time (LT50) as from 2.38 to 3.5days against third instar larva of S. litura. To investigate the optimal growth temperature, radial growth and germination rate at different temperature(15, 20, 25, 30, 35°C) were observed. Among the twelve isolates Beauveria bassiana FG317 showed high pathogenicity and relatively high germination rate at 35°C.

Keywords : Entomopathogenic Fungi, Spodoptera litua, Beauveria bassiana

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C-1

Gpp2 is Required for Cell Wall Integrity and Fungal Virulence in Cryptococcus neoformans

Won-Hee Jung1, Min-Ju Kim1, Ye-Eun Son1, Sang-Hun Oh2, Hye Shin Kim2, Jin-Hwan Kwak2, Joseph Heitman3, Maria E. Cardenas3, and Hee-Soo Park1* 1School of Food Science and Biotechnology, Kyungpook National University, Daegu, South Korea; 2School of Life Science, Handong Global University, Pohang, South Korea; 3Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA

Calcineurin is required for temperature stress survival and virulence of human fungal pathogen Cryptococcus neoformans. Previously, we identified 46 calcineurin substrates in human fungal pathogen C. neoformans by employing phosphoproteomic analysis. In this study, we characterized one of putative calcineurin substrates Gpp2, a glycerol-3- phosphatase that involved in glycerol biosynthetic pathway. Growth of the gpp2 deletion strains was affected at 39°C in spot dilution growth assay. In addition, the gpp2∆ strains exhibited increased sensitivity to Congo Red, Calcofluor White and DTT. In vivo studies demonstrated that the gpp2 deletion mutant was attenuated compared to the wild type strains in the murine inhalation model. Genetic epistasis analysis discovered that Gpp2 and the zinc finger transcription factor Crz1 play a role in a branched calcineurin pathway that orchestrates stress survival and fungal virulence. These results propose the function of Gpp2 in cell-wall integrity, fungal pathogenicity in C. neoformans.

C-2

The Role of Mkt1 in Sexual Reproduction in Cryptococcus neoformans

Ye-Eun Son1, Won-Hee Jung1, Ci Fu2, Tae-Jin Eom1, Joseph Heitman2, Maria E. Cardenas2, and Hee-Soo Park1* 1School of Food Science and Biotechnology, Kyungpook National University, Daegu, South Korea; 2Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA

The Mkt1-Pbp1 complex is required for mating-type switching in Saccharomyces cerevisiae by regulating posttranscriptional regulation of HO expression. Here, we demonstrated that the poly(A)-binding protein-binding protein Pbp1 interacts with Mkt1 by employing a in vivo immuno-pull-down and mass spectrometry analyses. The association of Pbp1 with Mkt1 was confirmed by co-immunoprecipitation. Result of spot dilution growth assay revealed that the mkt1 deletion strains, unlike pbp1 deletion strains, did not show resistant phenotype to heat stress as compared to the WT. The mkt1 deletion mutants, similar to pbp1 deletion mutants, exhibited a defect in dikaryotic hyphal production. In addition, the mkt1 mutation resulted in reduced expression level of the pheromone gene (MFα1) during mating. These results propose that the Mkt1-Pbp1 complex is required for activation of pheromone gene expression sexual reproduction in C. neoformans.

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C-3

The Role of CaMon1 in Fungal Virulence and Stress Survival in Cryptococcus neoformans

Ye-Eun Son1, Hyun-Ji Kim1, Won-Hee Jung1, Joseph Heitman2, Maria E. Cardenas2, and Hee-Soo Park1* 1School of Food Science and Biotechnology, Kyungpook National University, Daegu, South Korea; 2Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA

Mon1, subunit of a guanine nucleotide exchange factor, is essential for vacuole trafficking and autophagy processes in eukaryotic system. Herein, we identified and characterized the function of CaMon1, an orthologue of Saccharomyces cerevisiae, in human fungal pathogen Cryptococcus neoformans. Mutation of the mon1 gene resulted in hypersensitivity to thermal stress. In addition, the mon1 deletion mutant exhibited increased sensitivity to SDS and DTT. However, the mon1 deletion mutant showed more resistant to antifungal agent fluconazole. In vivo studies demonstrated that the mon1 deletion mutant was attenuated compared to the wild type strains in Galleria mellonella insect model. Moreover, the mon1 deletion mutant was avirulent in the murine inhalation model. These results propose that Mon1 plays a crucial role in stress survival and pathogenicity in C. neoformans.

C-4

The role of VosA/VelB-activated developmental gene vadA in Aspergillus nidulans

Hee-Soo Park1, Mi-Kyung Lee2, and Jae-Hyuk Yu2 1School of Food Science and Biotechnology Kyungpook National University, Daegu, South Korea; 2Department of Bacteriology, University of Wisconsin, Madison, WI, USA

The filamentous fungus Aspergillus nidulans primarily reproduces by forming asexual spores called conidia, the integrity of which is governed by the NF-κB type velvet regulators VosA and VelB. The VosA-VelB hetero-complex regulates the expression of spore-specific structural and regulatory genes during conidiogenesis. Here, we characterize one of the VosA/VelB-activated developmental genes, called vadA, the expression of which in conidia requires activity of both vosA and velB. VadA (AN5709) is a 532-amino acid fungal-specific protein with a highly conserved domain of unknown function (DUF) at the N-terminus. This DUF was found to be conserved in many Ascomycota and some Glomeromycota species, suggesting a potential essential function of this domain in fungi. Deletion studies of vadA indicate that VadA is required for proper downregulation of brlA, fksA, and rodA, and for proper expression of tpsA and orlA during sporogenesis. Moreover, vadA null mutant conidia exhibit decreased trehalose but increased β(1,3)-glucan levels, lower viability, and reduced tolerance to oxidative stress. We further demonstrate that the vadA null mutant strains show increased production of the mycotoxin sterigmatocystin. In summary, VadA is a dual-function regulator that controls development and secondary metabolism, and participates in bridging differentiation and the survival of newly formed conidia in A. nidulans.

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C-5

Determination of transposon inserted loci for analyzing tolaasin negative mutants obtained by mutagenesis from Mushroom Pathogen, Pseudomonas tolaasii

Jung Hun Jeon*, Chang Won Lee, and Kim Jae Won Division of Applied Life Science (BK21 program), Gyeongsang National University; *Email: [email protected]

A mutational analysis of tolaasin expression was carried out in Pseudomonas tolaasii KACC10082, the causal agent of brown blotch disease in various mushroom. Following a screen of 6590 Tn5-containing mutants on plates containing kanamycin, 44 mutants that did not produce tolaasin were selected. To determine the chromosomal regions flanking the Tn5 insertion loci, direct sequencing techniques were applied. However, most of them did not give any correct sequence information. Success rate was below 10%. Of 44 mutants, only 5 DNA sequences were determined successfully by chromosomal sequencing. Furthermore, two DNA sequences are determined incorrectly. Therefore, direct sequencing would not be suitable for determination of loci for analyzing Tn5 insertion sites. Using polymerase chain reaction using primers designed based on DNA sequence of non-ribosomal peptide synthase(NRPS) for tolaasin, 20 mutants were identified that Tn5 was inserted NRPS gene cluster. Tn5 inserted sites were able to determined by cloning the Tn5 containing DNA fragment in the plasmid. Total DNA was extracted from selected mutant, and digested by various enzymes. After southern blot analysis, DNA fragments containing Tn5 was cloned in plasmid. In this study, we determined correct gene loci of Tn5 inserted in NRPS gene cluster including ABC transporter.

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C-6

Identification of genes for tolaasin production except non-ribosomal peptide synthease(NRPS) gene cluster in mushroom pathogen, Pseudomonas tolaasii

Jung Hun Jeon*, Chang Won Lee, and Kim Jae Won Division of Applied Life Science (BK21 program), Gyeongsang National University; *Email: [email protected]

Tolaasin negative transposon mutants obtained from Pseudomonas tolaasii were analyzed. Several genes except non-ribosomal peptide synthase(NRPS) gene cluster were identified to be involved for the production of tolaasin. Muatant C16 and C17 were revealed that Tn5 was inserted ABC transporter gene at different loci, respectively. Therefore, ABC transporter was essential for the secretion of tolaasin. In case of A31 mutant, Tn5 insertion site was determined GacA gene. This gene was reported as LuxR family transcriptional regulator. Based on the result that NRPS gene cluster contained LuxR regulator, tolaasin production should be regulated by GacA/GacS gene regulation, two component regulation. In addition, GNAT family acetyl transferase was mutated in D18 and E40 mutants, respectively. From identified genes, the regulation of NRPS and production of tolaasin will be discussed.

C-7

Function analysis of a hypovirus-regulated septin Cdc11 ortholog, CpSep1, from the chestnut blight fungus Cryphonectria parasitica

Myeongjin Jo1, Yo-Han Ko1, Kum-Kang So1, Jyotiranjan Bal1, Jeesun Chun1, Jung-Mi Kim2, and Dae-Hyuk Kim1* 1* Department of Molecular Biology, Department of Bioactive Material Sciences, Institute for Molecular Biology and Genetics, Chonbuk National University, Jeonju, Chonbuk 54896, Korea; 2Department of Bio-Environmental Chemistry, Institute of Life Science and Natural Resources, Wonkwang University, Iksan, Chonbuk 54538, Korea; *Email: [email protected]

Chestnut blight fungus, Cryphonectria parasitica, and its hypovirus present a useful model system for investigating the mechanisms of hypoviral infection. Pathoproteomics analysis revealed a protein spot, further identified as a septin, showing up-regulation in the presence of Cryphonectria hypoviruses (CHV1) and tannic acid supplementation. Blast search revealed its homology towards CDC11 gene of Saccharomyces cerevisiae. In order to analyze the functional role of this septin gene (CpSep1), we attempted to construct its null mutant and a total of eight CpSep1-null mutants were obtained. All CpSep1-null mutants showed retarded growth with less aerial mycelia and intense pigmentation on PDAmb plate. When the marginal hyphae were examined, hyperbranching was observed compared to that of the wild-type. However, the inhibition of colonial growth was partially recovered when the Cpsep1-null mutants were cultured in the presence of an osmostabilizer. Conidia production of the CpSep1-null mutants was significantly i.e., at least ten-fold more increased and electron microscopy suggested abnormal conidia-bearing structure. Interestingly, conidial morphology of the CpSep1-null mutants changed to be circular in comparison to the rod-shaped spores of the wild-type indicating a role of septin in spore morphology of C. parasitica. Virulence assays using excised chestnut bark and on apple, and stromal formation on chestnut stems indicated that the CpSep1 gene plays an important role in pathogenicity. This study indicated that the CpSep1 gene is required for an appropriate mycelial growth and pigmentation, osmotic stabilization, spore morphology, and fungal growth in the host plant.

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C-8

Effect of Continuous Subculture in Agar Media on the Mycelial Growth and Fruiting of Some Mushroom Strains

Min-Kyung Kim1, Byung-Joo Lee2, and Geon-Sik Seo1* 1*Department of mushroom Science, Korea National College of Agriculture and Fisheries, 2Chungcheongnam- do Agricultural Research & Extension Services; *Email: [email protected]

To investigate the effect of continuous subculture in agar medium on mycelial growth and productivity of mushroom strains, the isolates of oyster mushroom, king oyster mushroom, shiitake and common mushroom were subcultured more than 40 times. Mycelial growth varied during the subculture period. The mycelial growth was decreased and the recovery phenomenon was repeated though the time was different depending on the kind of strain. Because it is difficult to judge the mutation or degeneration only by the subculture characteristics, the enzymatic activity of these subculture strains was examined, and the productivity and quality were analyzed by artificial cultivation. Protein and enzyme activities of the strain were analyzed for mutation and viability of the strain by repeated subculture. As a result, the changes of cellulase activity in wood rotting mushroom were insignificant, and the pectinase activity was markedly different. The activity of lignin and polyphenols did not show any difference in activity except for King oyster mushroom. In artificial cultivation, the oyster mushroom, king oyster mushroom, and shiitake strain did not affect fruiting ability and quality in subculture of more than 70 times. However, the yield of fruiting body was decreased in the common mushroom strain that the subcultured 30 times.

C-9

Mycelial Growth Characteristics of Edible Mushroom Suillus bovinus

Eun-Jin Wang1, Sung-Min Jeon2, and Kang-HyeonKa1* 1Division of Wood Chemistry & Microbiology, National Institute of Forest Science, Seoul 02455, Republic of Korea; 2Woosung Apartment, Ganseok 4-dong, Namdong-gu, Incheon 21503, Republic of Korea; *Email: [email protected]

Suillus bovinus is ectomycorrhizal fungus that is associated with pine roots. Suillus bovinus is edible mushroom and has antioxidative activity. In this study, seven strains were used and all strains were isolated from mushroom tissues. Except NIFoS 1657, 1968, all strains were collected at different times and places. NIFoS 1657, 1968 were collected in Guseong-ri (Gangwon) at different times. We investigated the basic characteristics of the strains including growth temperature, media such as PDA, MEA, SDA and MMN. Except NIFoS 2335, All strains grew well on potato dextrose agar (PDA) at 25°C. The optimal temperatures for mycelial growth of all strains were 25°C and NIFoS 2335 was also grown well at 20°C. All of liquid media were based on MMN medium because ectomycorrhizal fungi were typically grown on MMN at pH range from 5.8 to 6.2. Based on MMN medium, the dry weight of S. bovinus strains was measured according to different inorganic nitrogen sources. All strains showed the highest dry weight on MMN and showed little difference on none contained nitrogen source, ammonium and nitrate media. In spite of same species, growth characteristics were different according to habitat of fruit body.

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C-10

Relationship between Extracellular Enzyme Activity and Virulence in Culture Filtrate of Beauveria bassiana Depending on the different media components

Byung-Ju Lee, Tae-Young Shin, Jung-Jun Kim*, Ji-Hee Han, and Sang-Yeob Lee Agricultural Microbiology Division, National Institutes of Agricultural Science; *Email: [email protected]

Entomopathogenic fungi are using pest biocontrol agents, especially sucking insect such as aphid and whitefly. Conidia of entomopathogenic fungi are influenced by environmental conditions and cause slow and fluctuating mortality. Extracellular enzymes produced by entomopathogenic fungi play a key role in cuticle hydrolysis. Therefore, we investigated relationship between extracellular enzyme activity and virlence in culture filtrate by Beauveria bassiana Bb08 depending on the culture components of media. After the cultivation for 5 days, we conducted bioassay with this culture filtrate and measured the mortality after 5 days and enzyme activity such as chitinase and protease. As a result, filtrate of Bb08 cultured in 4% yeast extract plus 3% corn steep medium showed the highest mortality against cotton aphid 5 days after treatments compared with five other filtrates cultured in different broths. The culture filtrate of Bb08 did not show chitinase activity but only protease activity a little. We suggest the culture filtrate may have aphicidal secondary metabolite.

C-11

Development of browning technology for shiitake in sawdust with LED

Jinmo Koo, Sung-Hak Lee, Eun-Hee Kim, Seo-Wan Park, Hyo-Chan Park, Woo-Sik Jo* Gyeongbuk Province Agricultural Technology Administration, Daegu 41404, Korea; *Email: [email protected]

Shiitake culture in sawdust is a widely applied method, which can supplement the disadvantages of costly and time consuming oak log cultivation. In sawdust cultivation, browning of surface mycelia is an important stage for the productivity and longevity of sawdust media. Surface browning forms protection coat for the substrate, which can block the invasion of outer pathogens and suppress water evaporation in the substrate. We controlled different light source (red LED, white LED, blue LED, and fluorescent light) with different intensity of illumination (1.5, 10.5, 20.5 μmol/m2s for LEDs and 10, 100, 300 lux for fluorescent light) to induce browning. Lights were treated with 1 hour on/ o 1 hour off cycle maintained in a controlled room with 20 C temperature, 60% humidity, and 1200 ppm CO2 atmosphere concentration for 67 days. Browning effect differed from the source and intensity of illumination. Browning was most effective in 1.5 μmol/m2s for blue LED. All light sources showed less browning in highest intensity of illumination, which indicates that higher than 20.5 μmol/m2s for LEDs or 300 lux for fluorescent light are not effective. After harvesting fruit bodies, we measured their weight, length and width of pileus and stipe, chromaticity, and hardness. Treatment with 1.5 μmol/m2s blue LED produced the best harvest with highest average individual weight (21.2g), stipe length (30.8 mm), and hardness (377.9 g) with fine length and width of pileus, and chromaticity. This results indicate that 1.5 μmol/m2s blue LED showed the best browning effect which resulted in the best harvest yeild.

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C-12

Effect of light on the Mycelial Growth of Morchella spp. and Tricholoma spp. on PDA medium

Jung A Kang1,2, Yeun Sug Jeong1, Seong Hwan Kim2, and Kang Hyeon Ka1* 1*Division of Wood Chemistry and Microbiology, National Institute of Forest Science, Seoul 02455, Korea; 2Department of Microbiology, Dankook University, Cheonan, Chungnam 31116, Korea; *Email: [email protected]

Among the ectomycorrhizal fungi, Morchella spp. and Tricholoma spp. include edible mushrooms with high value. To develop these fungi for commercial use, it is prerequisite to set up the optimal growth condition of mycelia. Since light condition is known as one of important factors to the mycelial growth of fungi, we first examined the effect of light on the mycelial growth of these fungi. For the experiment, each fungal species was inoculated on a PDA medium using a single agar plug with 6 mm in diameter from the stock cultures. The Morchella-inoculated media were incubated for 2 weeks and the Tricholoma- inoculated media were incubated for 6 weeks in light (using fluorescent lamp, 1,300 lux) and dark (covered with foil) conditions. After the incubation period, the diameters of mycelia were measured and compared. In light condition, there was not much difference in the mycelial growth among Morchella spp. While, difference existed among Tricholoma spp. Tricholoma matsutake, T. bakamatsutake, and T. terreum grew about two times faster in dark condition than in light condition. T. fulvocastaneum showed 10 times slower growth in light condition.

C-13

Antioxidant activity of the culture broth of the higher fungi

Jae-Wook Kim1, Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1* 1Division of Biotechnology, Chonbuk National University; 2Rural Development Administration; *Email: [email protected]

Global fungal diversity has been estimated at 5 million species. There are approximately 20,000 described species of microscopic fungi or "mushrooms". Mushrooms are known to produce a large variety of bioactive substance such as antioxidant. In this study, we investigated antioxidant activity of 20 fungal strains of mushroom origin. Each strain was cultured on potato dextrose broth at 27℃ for 28 days, under the shaking and stationary culture conditions. Each culture broth was extracted with acetone, and acetone extract was concentrated to eliminate acetone. The resultant solution was partition with ethyl acetate. Ethyl acetate-soluble portion was concentrated and prepared at a concentration of 10 mg/mL in DMSO. Antioxidant activity was estimated using two different antioxidant assay methods: DPPH (1,1-diphenyl-2- picrylhydrazyl) radical and ABTS (2,2-azinobis-(3-ethylbenzthiazoline-6-sulphonic acid)) radical scavenging activities. Among 40 ethyl acetate extracts, the shaking culture extracts of Loweporus sp. and Marasmius pulcherripes showed the most potent activity with 90% ABTS radical scavenging activity and about 80% DPPH radical scavenging activity.

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C-14

Chemical constituents of the culture broth of the fungus Hericium coralloides

Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University and 2Rural Development Administration

The higher fungi have been used as a potential source of medicinal components and nutritionally functional foods. They produce various secondary metabolites with diverse unusual chemical structures and interesting biological activities. The higher fungus Hericium coralloides is an edible mushroom in the Hericiaceae family and has been used as traditional food and medicine in Asia. It is mainly distributed in Asia, Europe, and North America. During our ongoing investigation on chemical constituents in the culture broth of fungal strains of mushroom origin, a new compound, together with a known compound, were isolated from the culture broth of H. coralloides. H. coralloides was cultured in potato dextrose broth medium on a shaker of 120 rpm at 27°C for two weeks. The whole culture broth of H. coralloides was extracted with acetone at room temperature and filtered. The filtrate was concentrated to remove acetone and then partitioned with ethyl acetate. The ethyl acetate-soluble portion was subjected to MPLC, followed by preparative reversed-phase HPLC to afford two compounds. The chemical structures of these compounds were determined by NMR and mass measurements.

C-15

Chemical constituents of the culture broth of Schizophyllum commune and their antibiotic activity

E-Eum Woo1, Ji-Yul Kim1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University and 2Rural Development Administration; *Email: [email protected]

Mushrooms are used for edible and medicinal purposes, and they are useful resource that produces bioactive materials, such as antibiotic, antiviral, and immunomodulatory compounds. In the course of our screening for antibiotic fungi, we selected the Schizophyllum commune showing potent antifungal activity against plant pathogenic fungi. S. commune is a common species of mushroom that inhabit diverse trees worldwide. S. commune was reported to produce phenolic acids and polysaccharides, and the extract of S. commune has been reported to exhibit antimicrobial activity. However, there is no report on the chemical constituents and active components of S. commune. In this study, we isolated two new compounds, together with one known compound schizostatin, from the culture broth of S. commune. Chemical structures of the compounds isolated were determined through the spectroscopic methods. Schizostatin exhibited antibiotic activity against Bacillus subtilis, Staphylococcus aureus, Botrytis cinerea, Colletotrichum gloeosporioide, and Rhizoctonia solani.

- 83 - ∙∙∙ 포스터 발표 ∙∙∙

C-16

Isolation of four new compounds from the culture broth of Irpex consors

Yoon-Ju Lee1, Ji-Yul Kim1, E-Eum Woo1, Kyeong-Woon Jeong1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyoung Lee1, and Bong-Sik Yun1* 1Division of Biotechnology, Chonbuk National University, 2Rural Development Administration; *Email: [email protected]

Irpex consors belongs to the Meruliaceas family of the Polyporales order, and it has been called a variety of names such as Coriolus consors, Cerrena consors, Polyporus consors, and Tremetes consors and so on. I. consors has been reported to produce terpenoids, ergosterol, and polysaccharides that have anti-microbial and antitumor activities. As part of our ongoing investigation to discover new bioactive natural products from the culture broth of fungal strain, four new amino acid-conjugated sesquiterpenes were isolated from the culture broth of the fungus I. consors. I. consors was cultured in potato dextrose broth medium at 27°C for 3 weeks with the agitation of 120 rpm. The whole cultured broth was extracted with acetone and filtered to separate filtrate and mycelia. The filtrate was concentrated to remove acetone and fractionated by Diaion HP-20 column chromatography, silica gel column chromatography, Sephadex LH-20 column chromatography, and MPLC. Finally four new compounds were purified by preparative reversed-phase HPLC. Chemical structures of these compounds were determined to be isoleucine, leucine, threonine, and valine-conjugated sesquiterpenes by the spectroscopic methods.

C-17

Chemical constituents of the culture broth of Hydnochaete tabacinoides

Mushrooms are ubiquitous in nature and provide a plentiful nutrient for human. They also produce various classes of unique compounds with biological activity. During the search for new secondary metabolites with unique chemical structures from the culture broth of fungal strain, we found that a fungal strain Hydnochaete tabacinoides produced diverse compounds in its culture broth. In this presentation, we report the isolation and structure determination of one new compound and two known compounds from the culture broth of H. tabacinoides. The fermentation was carried out in potato dextrose broth medium for 3 weeks at 27oC on the rotary shaker of 120 rpm, and the culture broth was extracted with acetone at room temperature and filtered. The filtrate was concentrated under reduced pressure and then subjected to Diaion HP-20 column chromatography, silica gel column chromatography, Sephadex LH-20 column chromatography, MPLC, and preparative HPLC to obtain three compounds. Their chemical structures were determined by interpretation of spectroscopic data including one and two-dimensional NMR spectra and ESI-MS spectrum.

- 84 - ∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

C-18

Antibiotic activity of the culture broths of the higher fungi

Kyeong-woon Jeong1, Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Jae-Wook Kim1, Soon-Ja Seok2, In-Kyeong Lee1, and Bong-Sik Yun1* 1Division of biotechnology, Chonbuk National University; 2Rurai Development; Administration, *Email: [email protected]

The use of a microorganism or its secretions to prevent plant disease offers an attractive alternative or supplement to synthetic fungicides for the management of plant disease, without the negative effects of chemical control mechanisms. The fungi produce structurally unique and biologically active secondary metabolites containing diverse antibiotics. In this study, we screened for the higher fungi with the potential to be used as microbial fungicides. To select the fungal strain with antibacterial and antifungal activity, 18 fungal strains were cultured in shaking and stationary conditions, respectively, at 27℃ for 3 weeks, and the culture broths were extracted with acetone. The whole culture broths were concentrated to eliminate acetone, and the resultant aqueous solution was partitioned with ethyl acetate. Thirty-six ethyl acetate extracts were tested for their antibiotic activity against six pathogenic microorganisms. Among them, Hymeno- chaete fuliginosa, Crepidotus sp., Hymenochaete fuliginosa, and Trichaptum fusco-violaceum showed antibacterial activity against Escherichia coli. Especially Ophiocordyceps longissima exhibited potent antifungal activity against plant pathogenic fungi.

C-19

Antioxidant activities of the medicinal mushrooms Phellinus linteus and Phellinus baumii

Ji-Yul Kim1, E-Eum Woo1, Yoon-Ju Lee1, Kyeong-Woon Jeong1, Jae-Wook Kim1, In-Kyoung Lee1, Hee-Wan Kang2 , and Bong-Sik Yun1 1Division of Biotechnology, Chonbuk National University, and 2Graduate School of Future Convergence Technology, Hankyong National University

Oxidative stress caused by the disproportionate production of reactive oxygen species (free radicals) as compared to the elimination of these products by endogenous antioxidants, is considered to be one of the main causes in the progression of rheumatoid arthritis, arteriosclerosis, ischemic stroke, autoimmune disease, diabetes, cancer initiation, and aging. The mushrooms, Phellinus linteus and P. baumii have been used as a traditional medicine in oriental coun- tries for the treatment of stomachache, inflammation, arthritis of the knee, gastrointestinal disorder, lymphatic disease, and cancer. In this study, the fruiting bodies of the cultivated P. linteus and P. baumii were obtained from Hankyong National University. P. linteus and P. baumii were powdered and extracted with 60% ethanol for 6 hours and then filtrated. The extracts of P. linteus and P. baumii were evaluated for their antioxidant capacity including DPPH (1,1- diphenyl-2-picrylhydrazyl) and ABTS (the 2,2`-azinobis[3-ethylbenzothiazoline-6-sulfonate]) radical scavenging assays, reducing power, and total polyphenol contents.

- 85 - ∙∙∙ 포스터 발표 ∙∙∙

C-20

Effects of different extraction methods on the antioxidant activities of Lentinula edodes

Sooyoung Seo, Youngae Park, Yeongseon Jang*, and Kang-Hyeon Ka Division of Wood Chemistry & Microbiology, National Institute of Forest Science, Seoul 02455, Republic of Korea; *Email: [email protected]

The effects of extraction methods (water extraction and hot water extraction) on the antioxidant activity were studied. The dried mushrooms from two cultivars of Lentinula edodes (Sanmaru1ho and Sanmaru2ho) were used to make extracts. The potential antioxidant activities of the extracts were measured by total polyphenol contents (TPC), total flavonoid contents (TFC), 2, 2-Diphenyl-1-picrylhydrazyl (DPPH·) radical scavenging activity, ferric reducing antioxidant power (FRAP), and reducing power. The water extracts of dried L. edodes contained higher total phenolic and flavonoid contents than the hot water extracts. In addition, they also exhibited the strongest antioxidant activities. The water extracts of L. edodes contained higher total polyphenol and flavonoid contents (Sanmaru1ho: 8.21 mg GAE/g of TPC and 0.70 mg QE/g of TFC, Sanmaru2ho: 10.44 mg GAE/g of TPC and 0.92 mg QE/g of TFC) than the hot water extracts (Sanmaru1ho: 5.14 mg GAE/g of TPC and 1.09 mg QE/g of TFC, Sanmaru2ho: 6.21 mg GAE/g of TPC and 0.85 mg QE/g of TFC). The scavenging effects of water extracts from L. edodes on the DPPH radical scavenging activity showed 18.20 - 79.43% (Sanmaru1ho) and 21.55 - 89.17% (Sanmaru2ho) at the concentrations of 0.2-2.0 mg/ml, respectively. Additionally, FRAP and reducing power of the water extracts increased with the concentrations. The results suggested that water extracts of Lentinula edodes could be used as a potential natural antioxidant source.

C-21

Antioxidant Properties from 6 Species of Monofloral Bee Pollens treated with Medicinal Mushrooms

In-Pyo Hong*, Soon-Ok Woo, and Sang-Mi Han Department of Agricultural Biology, National Academy of Agricultural Science, RDA, Korea; *Email: [email protected]

Bee pollen is a flower pollen collected by bees, which results in the agglutination of pollen with nectar and salivary substances of bees. It is rich in amino acids, proteins, hormones, minerals and vitamins, which contribute to the beneficial effects on immune defense system as well as anti-aging, antioxidant, antimicrobial, anti-inflammatory. Although the chemical composition of bee pollen is varied depending on plant sources, it contains high amounts of phenolic constituents such as flavonoids, anthocyanins and tannins, which exhibit diverse biological activity. Pollen grains have been extensively used in functional food, folk medicine, and beverage industry to improve human health. Honey production from approximately 1.7 million colonies owned by around 21 thousand Korean beekeepers was almost 36 thousand M/T in 2014. But stiff pollen wall hindered dissolution of polysaccharides and lowered extraction efficiency. In the present study, the antioxidant and anti-melanogenesis from 6 species of monofloral bee pollens which were treated with medicinal mushrooms were investigated using antioxidant and tyrosinase assay system. The tyrosinase inhibitory activities of Quercus acutissima, Actinidia arguta, Amorpha fruticosa, Oryza sativa, Chrysanthemum morifolium and Salix koreensis at 100㎕/㎖ concentration were 42.73%, 8.98%, 4.38%, 36.09%, 17.28% and 62.76%, respectively.

- 86 - ∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

D-1

Screening of Useful Yeast for Brewing of Strawberry Alcoholic beverages and Its Optimal Fermentation Conditions

Sang-Min Han, Ha-Kun Kim, and Jong-Soo Lee* Department of Biomedical Science and Biotechnology, Paichai University, Daejeon, 35345, Korea; *Email: [email protected]

Screening of potent yeasts and its optimal fermentation condition for development of new strawberry alcoholic beverages were investigated. Commercial yeast, Fermivin was good for brewing of strawberry wine and maximal ethanol content of strawberry wine was obtained when raw strawberry juice(24 brix) was fermented by 1% Fermivin at 25℃ for 7 days and its antioxidant activity was 78.5%. We produced Makgeolli by using strawberry as an additive, and then investigated its physicochemical properties. Saccharomyces cerevisiae JSK104 which produced maximal 17.4% ethanol was selected as excellent yeast for brewing of strawberry Makgeolli. Changes in physicochemical properties, number of yeast and lactic acid bacteria were investigated during the fermentation of strawberry Makgeolli. The pH tended to decrease and the total acidity increased as the fermentation period elapsed. Ethanol content reached about 17% on the 7th day after fermentation, and the number of yeast and lactic acid bacteria reached a maximum on the 1st day of fermentation and then maintained a constant number.

Keywords : Strawberry wine, Optimal fermentation condition, Saccharomyces cerevisiae JSK104, Strawberry Makgeolli

D-2

Antioxidant and antifungal ability of the indigenous Trichoderma spp.

Kyeongwon Kim, Joo-Hyun Hong, Young Mok Heo, Seokyoon Jang, and Jae-Jin Kim* Division of Environmental Science & Ecological Engineering, College of Life Science & Biotechnology, Korea university; *Email: [email protected]

The genus Trichoderma is frequently found in various environmental conditions and known as having the ability to antagonize or even kill other fungi. To access potential biological activities of the genus Trichoderma, 48 indigenous Trichoderma strains were obtained from the Korea University Culture collection (KUC collection). The antioxidant activities were evaluated using ABTS and DPPH radical scavenging assays. T. longibrachiatum KUC 21210 and KUC 21196 showed strong radical scavenging activities of both assays. In case of the antifungal activity, T. albolutescens KUC 21115 and KUC 21168 exhibited remarkable antagonistic abilities against two plant pathogens: Fusarium oxysporum KUC 20267 and Collectotrichum gloeosporioides KUC 21266.

- 87 - ∙∙∙ 포스터 발표 ∙∙∙

D-3

Genome sequence of Gaeumannomyces sp. JS-464, a common reed originated endophytic fungi with anti-inflammatory activity

Jung A Kim1, Jongbum Jeon2, Ki-Tae Kim2, In-hye Lee1, Hyun-jung Lee1, Woo Young Bang1, Hee-sun Yang1, Sook-Young Park3, Yong-Hwan Lee2, and Soonok Kim1* 1National Institute of Biological Resources, Incheon 22689; 2Fungal Bioinformatics Lab. Seoul National University; 3Dept. Plant Medicine, Sunchon National University, Sunchon 57922; *Email: [email protected]

Fungal endophytes, important plant-associated mycobionts, have attracted a lot of attention due to their bioactive secondary metabolites. A strain of Gaeumannomyces sp. JS-464 exhibited anti-inflammatory activities against lipopolysaccharide-induced mouse BV2 microglial cells, similar effects as its host plant common reed (Phragmites communis). Dried rhizome of reed plant has been used as traditional medicine and is known to have neuroprotective and cognitive improving activity. Several compounds, especially a derivative of ergosterol peroxide, were attributed for these activities. The genome of this strain was sequenced by hybrid technology incorporating single molecule real-time (PacBio) and HiSeq (Illumina) platforms to understand molecular machineries of bioactive compounds biosynthesis. A total of 24.99 Gb (421X of genome size) sequences were generated. Genome size was estimated to be 59.29Mb by k-mer analysis. These were assembled into 80 scaffolds (91 contigs) with N50 of 7.46Mb, and 12,291 genes were annotated. Genes involved in secondary metabolites, including 20 polyketide synthase, 28 nonribosomal protein synthase, 131 cytochrome P450s, and 453 transcription factors were identified. Expansion of genes involved in ergosterol biosynthesis was also observed. These data will be used for further interrogation of molecular mechanisms underlying bioactive characteristics of this strain.

D-4

Anti-inflammatory activity of endophytic fungi isolated from two aquatic plants of Poaceae

Jung A Kim1, In-hye Lee1, Hyun-jung Lee1, Min Hye Jeong2, Sook-Young Park2, Woo Young Bang1, Hee-sun Yang1, and Soonok Kim1* 1National Institute of Biological Resources, Incheon 22689; 2Korean Lichen Research Institute, Sunchon National University, Sunchon 57922; *Email: [email protected]

Endophytic fungi are microorganisms that spend whole or part of their life cycle within plant tissues. They have attracted much attention due to their ability to produce various bioactive secondary metabolites. Since common reeds (Phragmites communis) and manchurian wild rice (Zizania caudiflora) have been used as resources of traditional medicine with recent reports on anti-inflammatory activities, we tested if its endophytes also show similar effects. The ethyl acetate extracts of culture filtrates from 22 fungal strains isolated from these two host plants were screened for their anti-inflammatory activity against lipopolysaccharide-induced mouse BV2 microglial cells. Most strains showed slight to significant reduction in NO level. Nine showed significant reduction in NO level without cytotoxicity. Especially, two strains (JS-527 and JS-755) from common reed reverted LPS induced NO level to basal level at 50 ppm. JS-527, identified as Alternaria tenuissima by morphology and molecular phylogeny, showed dose-dependent activity. Suppression of inducible NO synthase (iNOS), cyclooxygenase-2 (COX-2), pro-inflammatory cytokines, such as interleukin-6 (IL-6), interleukin-1b (IL1b), interferon beta (IFN-β) and tumor necrosis factor-α (TNF-α) at the transcription level was observed. These results suggest that anti-inflammatory metabolites of endophytic fungi from reed plant may be potent bioresources for further uses.

- 88 - ∙∙∙ 2017년도 한국균학회 춘계학술대회 ∙∙∙

D-5

Detection of Antifungal Lipopeptides Genes from Rhizobacterial Isolates by Polymerase Chain Reaction

Mahesh Adhikari, Hyun Seung Kim, Sun Kumar Gurung, Setu Bazie, Hyun Gu Lee, and Youn Su Lee* Division of Biological Resources Sciences, Kangwon National University, Chuncheon 24341, Korea; *Email: [email protected]

Rhizobacteria that bear favorable effects on plant growth and development are termed as “Plant Growth-Promoting Rhizobacteria”. Surfactin and Iturin are the cyclic lipopeptides which shows strong antibiotic activity against a broad spectrum of fungal pathogens. Surfactin family consists of about 20 different lipopeptides. Iturins are one of the most popular antifungal lipopeptides widely used for the biocontrol of fungal plant diseases. In total, 30 soil samples were collected from 3-5 inches from nearby area of roots of plants from Jeju-do, Republic of Korea. 47 different bacterial isolates were recovered from 30 soil samples. Among the tested bacterial isolates against several fungal plant pathogens (Rhizoctonia solani, Fusarium oxysporum f.sp. lactucae, Alternaria solani, Alternaria alternata, Colletotrichum dema- tium, C. coccodes, C. acutatum and Corynespora cassiicola), seven bacterial isolates (JS1, JS12, JS13, JS26, JS27, JS41 and JS43) exhibited high antagonistic activity. Potential seven antagonistic bacterial isolates from in vitro tests were further characterized for the production of antifungal lipopeptides genes. PCR analysis was performed to detect iturin gene by using Itu D primer and surfactin by sfb primer. PCR amplification of sfp gene fragment (675 bp) and ituD gene fragment (1203 bp) in seven isolates showed positive results. The itu D gene encodes a putative malonyl coenzyme A transacylase, which results in production of antibiotic iturin A. These results confirmed that JS1, JS12, JS13, JS26, JS27, JS41 and JS43 harbours the genes requires for surfactin and iturin D biosynthesis. Keywords : Iturin D, Lipopeptides, Rhizobacteria, Surfactin

D-6

A Case Study on Mold Contaminant in the Built-in Furniture in an Apartment House

Min Ah Choi1 and Seong Hwan Kim1,2* 1Department of Microbiology and 2Institute of Biodiversity, Dankook University, 119, Dandae-ro, Cheonan-si, Chungcheongnam-do, Republic of Korea; *Email: [email protected]

Indoor mold of apartment housings can cause damages on furniture and homeware by producing malodorous smell, discoloration and decay. Its occurrence on indoor environment could also affect the health of residents. Regarding the domestic market of apartment housing, the use of built-in furniture is the current trends. With the increase of apartment construction, consumers complain on the contamination of mold in the built-in furniture has been increasing. However, information about mold contaminant is rarely available. As a case study, we isolated and identified the mold contaminant in the furniture built in an apartment house. Aspergillus creber, A. niger, A. pseudoglacus, A. ruber, Clados- porium perangustum, and Penicillium commune. were identified. Aspergillus creber known as an opportunistic pathogen was an unrecorded species in Korea. These mold species could form a lot of spores when they were grown on CYA, PDA, DG-18, MEA, and oat meal agar at 25℃ for 14days. They have shown different colony morphology, depending on the media types. Except A.ruber, other species could grow faster on oat meal agar than other media. A.ruber showed fast growth on CYA and PDA. Their growth properties on several kinds of wall papers and wood materials and chromogenic media containing different types of carbon sources were recorded.

- 89 - ∙∙∙ 포스터 발표 ∙∙∙

D-7

Heterologous Expression of Terpene synthase from Polyporus brumalis in Pichia pastoris for production of the recombinant enzyme

Ji-Eun An, Su-Yeon Lee, Sun-Hwa Ryu, Myung-Kil Kim* Division of Wood Chemistry & Microbiology, Department of Forest Products, National Institute of Forest Science; *Email: [email protected]

The terpenoids have a wide range of biological functions and are extensively applied in the fields of pharmaceuticals, cosmetics and flavorings. White-rot fungi, Polyporus brumalis, are one of sources formed terpenoids. Terpene synthase catalyzes an important step which forms a large variety of sesquiterpene products from farnesyl pyrophosphate (FPP). In order to improve the production of sesquiterpene, terpene synthase gene was isolated from Polyporus brumalis and investigated the functions. The open reading frame (approximately 1.2 kbp) of the isolated gene was inserted into the Pichia pastoris to obtain the recombinant enzyme. The 5 transformants were obtained and investigated upon transcription level by reverse transcription PCR and protein level by SDS-PAGE. Since the inserted terpene synthase ORF sequence contained a magnesium-binding domain, transformants were cultured in the magnesium-containing medium. The expression of terpene synthase gene was increased in transformants. The expected protein was found to be approximately 45 kDa on SDS-PAGE. The characterization of the recombinant enzyme is underway.

D-8

Cultural characteristics of crossing strains, Lentinula edodes, on medium incubation

Youngae Park, Sooyoung Seo, Yeongseon Jang, and Kang-Hyeon Ka* Division of Wood Chemistry and Microbiology, National Institute of Forest Science; *Email: [email protected]

We investigated cultural characteristics of Lentinula edodes to see if they are related to fruitbody formation and morphology and to develop new varieties with good value. We used 9 strains including domestic and foreign varieties to make monosporic cultures and 50 new dikaryons were derived by mono-mono hybridization. After 10 days of incubation on PDA plates, 32%(16/50) of the dikaryons grew over 70 mm, 38% (19/50) grew 60~70 mm, 26%(16/50) grew 50~60 mm, 2%(1/50) grew 40~50 mm and 2%(1/50) grew 21 mm. The mycelial density was high in 5 strains (10%) medium in 34 strains (68%) and low in 11 strains (22%). Eight strains showed aerial hyphae and 88% of them derived by Sanbaekhyang. Their effect on the fruit body need to be examined further. For the sawdust bag cultivation, we prepared sawdust media (20% wheat bran) in 100 mm x 50 mm container. The 50 strains were inoculated and incubated for 60 days. About 44% (22 strains) produced tunicate, 6% (3 strains) showed browning of the media, and 30% (15 strains) of the media had elasticity 72% (36 strains) showed mycelial lump.

Keywords : Crossing strains, Characteristics, Lentinula edodes, Media, Sawdust

- 90 - •학회 소식

•국제학술대회 소식 및 회원동정

•회의록

•2016년도 유동자산 현황 및 회계결산서

한국균학회 임시총회 및 •2017년도 예산 한국균학회 소식 •감사서

•임원, 간사 및 위원회 명단

•회원 명단

•신입회원 명단

❙학회 소식❙

❖ 2016년 한국균학회 추계학술대회 및 정기총회 The 4th Korea-Japan Joint Symposium for Mycology

2016년 한국균학회 추계학술대회 및 정기총회가 2016년 11월 3일(목) ~ 4일(금) 일산 KINTEX 에서 100여명의 회원들이 참석한 가운데 성황리에 개최되었다. 이번 학술대회에서는 13편의 특 강과 93편의 포스터가 발표되었고 제4차 한일균학공동심포지엄도 함께 개최되었다.

❖ 찬조금 및 학술지 국제화 발전기금 모금 내역 - 후원금 입금자(4인) ► 김기덕 차기회장 : 500,000원 ► 노재영 기금위원장 : 500,000원 ► 석순자 균학용어심의위원장 : 500,000원 ► 이향범 편집간사 : 300,000원

❖ 학술대회 협찬 ► (주)한일사이메드 : 2,000,000원(광고, 부스) ► (주)일신바이오베이스(아이에스바이오) : 2,000,000원(광고, 부스) ► 광주과학 : 500,000원 ► 국순당 : 현물 협찬

- 93 - ❙국제학술대회 소식 및 회원동정❙

Information on international mycological congresses in 2017

1. Asian Mycological Congress 2017 (AMC 2017) October 10-13, 2017 Rex Hotel Saigon, Ho Chi Minh City, Vietnam http://amcfungi2017.com/

2. International Conference on Mycorrhiza (ICOM 9) July 30 - August 4, 2017 Prague, Czech Republic https://mycorrhizas.org/home/events/

3. 18th Congress of European Mycologists (2017) September 16-21, 2017 Warsaw and Białowieża Primeval Forest, Poland Website: unavailable yet

4. ASM Microbe June 1-5, 2017 New Orleans, LA, USA http://www.asm.org/index.php/asm-microbe-2017

5. International Union of Microbiological Societies (IUMS) 2017 Singapore July 17-21, 2017 Sands Expo & Convention Centre, Marina Bay Sands, Singapore www.iums2017singapore.com

* International Mycological Congress 11 (IMC11; 2018) July 16-21, 2018 Puerto Rico http://imc11.com/

- 94 - □ 해외출장 작성자 : 경상북도농업기술원 조우식 여행안건 버섯 품종 및 재배 기술 개발을 위한 첨단정보 습득 여행목적 ◦ 새로운 버섯 품종 및 재배 기술 개발을 위한 첨단정보 습득으로 국제적인 버섯재배기술 동향 및 트렌드를 파악하고자 함 여행기간 2017. 4. 10 ~ 4. 14 (4박 5일) 여 행 국 일본 (북해도 : 한국면적의 약 83%, 인구 약 550만명/2014년) 방문기관 북해도대학, 북해도임업연구소 등 유영진 전라북도농업기술원 이하연 강원도농업기술원 여 행 자 이관우 충청북도농업기술원 장갑열 농촌진흥청 버섯과 (가나다순) 이재홍 강원도농업기술원 조우식 경상북도농업기술원

북해도대학 타마이교수 필자

북해도 임산시험장 북해도임산시험장 소개

북해도임산시험장 버섯실험실 인천공항에서 해단식

- 95 - ❙한국균학회 희의록❙

❖ 2016년 한국미생물학회연합 제5차 운영위원회 회의록

❖ 2016년 한국미생물학회연합 제2차 회장단협의회, 대의원총회 및 제6차 운영위원회 회의록

❖ 2016년 한국균학회 제5차 이사회 및 운영위원회 회의록

❖ 2016년 한국미생물학회연합 제3차 회장단협의회, 대의원총회 및 제7차 운영위원회 회의록

❖ 2017년 한국균학회 제1차 이사회 및 운영위원회 회의록

❖ 2017년 한국미생물학회연합 제1차 운영위원회 회의록

❖ 2017년 한국미생물학회연합 제1차 회장단협의회 및 제1차 대의원총회 회의록

- 96 - 2016년 한국미생물학회연합 제 5차 운영위원회 회의록

일 시 2016년 10월 12일(수) 18:00 장 소 오봉참치 (강남역 소재) 대바: 조남혁(운영위원회 사무총장), 이재면(총무위원장), 박만성(학술위원장) 참석자 한균: 한갑훈(학술), 한미: 박우준(총무), 한미생: 한승현(학술) 한미연: 최세인(사무장)

회의 * 보고사항 내용 1. 조남혁 운영위원회 사무총장이 개회를 선언하고 회의를 주재하다. 2. 4차 운영위원회의 회의록을 낭독하다. 1) 한미 세션을 6개에서 5개로 확정하다. 2) 한균, 한미생 연자인 문유석 교수님은 그대로 두 곳에서 발표하기로 하다. 3. 2016년 학술대회 변경예산을 보고하다. 1) 실제 예상되는 수입예산을 보고하다. 2) 실제 지출될 지출예산을 보고하다. 4. 초록집 제작일정 및 학회별 등록편수 등을 보고하다. 5. 사전등록자수를 보고하다. 6. 후원업체를 보고하고 김영란법 시행으로 섭외의 어려움을 보고하다. 7. 후원업체 섭외 현황을 보고하다. 8. 학술대회 업무계획 및 진행요원 등을 보고하다.

* 토의안건 1) 연자 감사장 필요여부 및 미등록자 연자료 지급관련의 건 - 연자 감사장은 행사 후, 요청하는 분들게 PDF로 발급하기로 하다. - 미등록자 연자료 지급건은 섭외하신 교수님의 의견을 따르기로 하다. 2) 포스터 발표상 및 YS 시상확정 - 포스터 시상내역: 최우수상은 총편수 중 2편, 우수상은 15편당 1편 주기로 하다. - Young Scientist 시상내역: 작년과 동일하게 하다. - 부상: 모두 작년과 동일하게 하기로 하다. 3) 포스터 심사위원 및 수상편수 확정 - 심사위원: 1명당 15편 정도를 심사할수 있게 위원 수를 늘리기로 하다. - 심사표는 조남혁 사무총장이 시안을 만들기로 하다. - 수상편수: 최우수상 2편, 우수상: 15편당 1편

코드 A72 B64 C 41 D 30 E 34 F 80 G 19 H30 I 47 J61 발효, 감염, 면역, 식품, 계통 환경 생리 유전 생물 주제 대사산 병인기 신호전 미생물 기타 진화 생태 생화학 유전체 공학 물 전 이 학 심사 5 4 3 2 2 5 1 2 3 4 위원 수상 5432251234 편수

- 97 - 4) 등록데스크 위치: 3층에 위치하고, 금융부스에서 커피제공 한다면 3층에 배치하기로 하다.

5) 웰컴 리셉션 연회 준비 - 작년과 동일한 가격으로 진행하기로 하다. - VIP 테이블을 5개로 하고, 교수석은 별도로 두지 않기로 하다. - 와인(포도주) 대신 백세주나 맥주로 건배제의를 하기로 하다. 6) 경품준비 - 1등: 아이패드 1개, 2등: 블루투스 해드셋 4개, 3등: USB젠더(안드로이드,아이폰 겸용) 15개 7) 식순 확인 - 개회식: 연합회장이 한미연 연혁을 10분정도 소개하는 자리를 만들도록 하다. (PPT준비) 8시 40분에 3층 한미 강연장에서 개회식 시작하기로 하다. - 환영연: 식사시작 직전에 단체사진을 찍기로 하다. - 폐회식: 2층 한미생 강연장에서 진행하기로 하다. 포스터 및 YS 시상, 응모권 추첨은 5개 회장님들이 나눠서 하기로 하다.

- 98 - 2016년 한국미생물학회연합 제2차 회장단협의회, 대의원총회 및 제6차 운영위원회 회의록

일 시 2016년 11월 2일(수) 17:00 장 소 킨텍스 제1전시장 309B호

대바: 황응수(회장), 안진현(차기회장), 조남혁(사무총장), 이재면(총무) 한균: 김종국(회장), 신광수(차기회장), 천세철(총무), 김기덕, 참석자 대미: 정상인(회장), 박인달(차기회장), 한미: 박우준(총무), 한미생: 이철훈(회장), 한승현(학술), 한미연: 최세인(사무장)

회의 * 보고사항 내용 1. 조남혁 운영위원회 사무총장이 개회를 선언하고 황응수 회장이 회의를 주재하다. 2. 1차 회장단협의회 및 대의원총회 회의록 보고 1) 2017년 한미연 개최일정을 감염관련 국제학술대회와 겹치지 않게 하였음을 보고 2) IUMS 기금 유지 여부를 이번 회의에서 정하기로 하였음을 보고 3. 운영위원회의 현황 및 결정사항 보고 1) 실제 예상되는 수입예산을 보고하다. 4. 한미연 국제학술대회 준비사항을 보고하다. 1) 학회별 논문편수, 사전등록 현황, 기업유치현황 2) 기기전시 및 포스터 보드 배치도 확인 5. 2016년 학술대회 가결산 및 연합 가결산을 보고하다. 6. 행사 식순을 보고하다. 7. 2017년 한미연 학술대회 개최일정을 가능한한 10월말로 하기로 하다. -> (한미연회장 설명 및 동의 사항) 2017년 감염관련 국제학술대회가 9월중순 개최되므로 한 미연 국제학술대회는 날자에 구애받지 않게됨. 차기 주관학회에서 날자와 장소를 통보해주면 그 날자와 장소를 한미연 국제학술대회 개최일과 장소로 결정하기로 함.) 8. IUMS 준비 및 대전마케팅공사와의 협약식을 보고하다.

* 토의안건 1) IUMS 관련 기금유지 여부의 건 - IUMS 유치기금을 국제학술대회 유치기금으로 이름을 변경하기로 하다. - 국제학술대회 유치기금을 유지하되 적립금은 모으지 않는다. - 추후 새로운 국제학술대회를 유치할 때 다시 협의하여 적립하기로 하다. 2) 미래부 미생물 원천연구기획 설문조사의 건 - 설문조사 관련하여 5개 학회 회원님들께 설문안을 보내기로 하다. - 각 학회에서 2인을 추천하여 미래부에서 개최하는 간담회에 참석하게 하기로 하다.

- 99 - 2016년 제5차 이사회 및 운영위원회 회의록

일시 2016. 12. 23(금), 16시 장소 고려대학교 생명과학대학 서관 529호 김종국, 신광수, 김기덕, 신기선, 김완규, 권경열, 서건식, 이상엽, 김성환, 참석자 천세철, 윤봉식, 노재영, 석순자, 한갑훈, 상미경, 김미정 송년회- 이민웅, 심미자, 이태수, 김홍기(20명 참석)

◉ 연간 업무 보고 및 편집위원회 보고(회의자료 별첨) 1. 2016년 춘계학술대회 2. 2016년 하계심포지엄 및 균류채집회 3. 2016년 한미연 국제학술대회 겸 한국균학회 추계학술대회 및 한일균학회 회의 4. 2016년도 광고 수주 및 기부금 현황 내용 5. 학회 소유 오피스텔 매매 6 2016년 논문 발행 현황 7 2017년도 임원 및 위원회 명단 8 2016년도 12월 20일 기준 유동자산 현황 9 2016년도 12월 20일 기준 가결산서 10 2017년도 예산(안) 11. Mycobiology 편집위원회 12 한국균학회지 편집위원회

◉ 기타 안건 협의 1. 정관 수정 관련 - 정관의 임원의 자격과 부회장의 명칭은 선출직 부회장 대신 수석부회장, 산업체 부회장은 부회장으로 수정하기로 하다. - 이사는 각 위원회의 위원장을 역임한 회원가운데 평의원회에서 추천하고 총회에서 인준을 받는다. 2. 학회 등록비, 논문게재료, 회비 납부를 카드결제 가능토록 한다. - 관련사항은 추후 논의하기로 하다. 3. 예산의 운영비 관련 - 사무장의 급여 인상 - 4대 보험은 근로기준법에 근거하며 근로자 법정보험료는 개인의 급여에서 공제하기로 한다. - 퇴직금은 근로기준법에 근거하여 적립한다. - 복리후생비(명절 수당)는 성과급으로 변경하여 성과에 의거 지급하기로 하다. - 출장비는 실비로 지급하기로 하다. - 상기 사항은 사무장과의 협의를 통해 최종 결정하고 근로계약서를 작성하기 로 하다.

◉ 2016년도 송년회

- 100 - 2016년 한국미생물학회연합 제3차 회장단협의회, 대의원총회 및 제7차 운영위원회 회의록

일 시 2016년 12월 27일(화) 18:00 장 소 오봉참치

대바: 황응수(회장), 안진현(차기회장), 조남혁(사무총장), 이재면(총무), 대바 사무장 참석자 한균: 신광수(차기회장), 한균 사무장

회의 * 보고사항 내용 1. 황응수 회장이 개회를 선언하고 전 회의록을 이의 없이 접수하다 2. 학술대회 결과를 보고하다. 1) 초록등록현황, 포스터 미부착현황, 논문발표 수상현황 보고. 2) 참가인원현황, 미분류 참가자현황, 학부생현황, 무료등록자 현황, 등록비 미납자 보고. 3) 학회로 지급된 등록비 분배금 보고. 4) 후원금유치현황, 최근 5년간 학술대회 결산보고. 5) 학술대회 결산, 연합운영 가결산, 국제학술대회 유치기금운영 가결산 보고 6) IUMS 연회비 미납상황 보고. 7) 2017년도 사업계획 및 예산안, 2017년 조직표 보고. 8) 2017년 예산안에서 IUMS 기금적립 부분을 삭제하기로 하다.

* 토의안건 1) 차기 운영위원회 사무총장 승인의 건 - 건국대 천세철 교수를 차기 운영위원회 사무총장으로 추대하고 만장일치로 승인하다.

* 폐회를 선언하다.

- 101 - 2017년 제1차 이사회 및 운영위원회 회의록

일시 2017. 2. 3(금), 16시 장소 고려대학교 생명과학대학 서관429호 신광수, 김기덕, 서건식, 김영동, 김완규, 이종수, 김종국, 권경열, 김하근, 천세철 참석자 김대혁, 윤봉식, 엄안흠, 노재영, 가강현, 한갑훈, 최영준, 김미정(18명 참석)

1. 전 회의록 낭독

2. 2017년도 임원 위촉장 수여

3. 보고사항 회의 1) 2016년도 일반회계 결산서 및 2016년 12월 31일 기준 유동자산 현황 내용 2) 2017년 연중업무력

4. 춘계학술대회 1) 2017년 5월 24일(수) ~ 26일(금), 여수 디오션 호텔/리조트 2) 등록비 - 사전 : 일반 130,000원 / 학생 80,000원 - 현장 : 일반 150,000원 / 학생 90,000원 - 학부생 등록비 무료(명찰제공, 만찬 4만원 판매) 3) 5월 24일(수) 저녁 Mixer : 임원, 발표자, 좌장 등 30명 내외 4) 각 대학의 주관연구소 지원금 신청 독려 - 고려대, 강원대, 경북대, 전북대, 전남대, 충남대 등.

5. 하계심포지엄 및 버섯채집회 1) 2017년 7월 5일(수) ~ 7일(금) 확정 2) 사업간사는 경남지역 예정하고 있음. 3) 4월 전에 답사를 다녀온 후 최종 결정하기로 함.

6. 한미연국제학술대회 및 추계학술대회 1) 2017년 11월 2일(목) ~ 3일(금) 일산 KINTEX에서 개최. 2) 한국균학회 주관 3) 한미연 첫 회의는 3월 초 개최하기로 함.

7. Mycobiology - Taylor & Francis 계약 관련 1) 계약조건 등 보고 2) Editorial check 비용은 학회에서 연 5,000불 추가 지출 됨. 3) 계약이 결정되면 2017년 10월 ~ 12월까지 사이트 구축할 수 있고 2018년 1월부터 적용 가능.

8. 한국균학회지 게재료 등 1) 추가페이지 없이 기본료 30만원 2) 책자는 원하는 사람에게만 발송(연초에 한번 조사 후 발송-국,영문 공통) 3) 책값은 발송비 등 확인 후 결정하기로 함.

9. 2017년도 신년회

- 102 - 2017년 한국미생물학회연합 제 1차 운영위원회 회의록

일 시 2017년 3월 21일(화) 17:00 장 소 아노 (서울역 소재)

천세철(운영위원회 사무총장) 참석자 한균: 한갑훈(총무), 김창무(재무) / 한미: 조창천(총무), 윤철원(2018 실무위원장)

회의 1. 천세철 운영위원회 사무총장이 개회를 선언하고 회의를 주재하다. 내용 2. 2017년 운영위원회 명단을 확인하고 상견례를 하다.

3. 2017년 학술대회 예산 및 사업 일정을 아래와 같이 논의하다. 1) 각 학회 세션 구성을 2016년 대회와 같게 구성하고 회의자료에 있는 일정대로 진행하기로 하다. 2) 기업 참여 금액을 작년과 동일하게 하기로 하다. 3) 5개 회원학회에 기업참여(광고 및 전시) 유치해 줄 것을 요청하다. 4) 2017년 한미연 학술대회 대주제는 주관학회에서 고려하기로 하다.

4. 차기 운영위원회 회의는 2016년도 일정에 맞춰 진행하기로 하다.

* 폐회를 선언하다.

- 103 - 2017년도 한국미생물학회연합 제1차 회장단협의회 및 제1차 대의원총회 회의록

일 시 2017년 3월 21일(화) 17:30 장 소 아노 (서울역 소재) 한균(주관학회) : 신광수(회장), 김기덕(차기회장), 천세철(사무총장), 한갑훈(총무), 김창무(재무) 한미 : 김준(차기회장), 조장천(총무), 윤철원(2018 실무위원장) 참석자 대미 : 신부안(회장), 박인달(차기회장) / 대바 : 황응수(회장), 안진현(차기회장) 한미생 : 성문희(회장), 김병천, 정원희, 이나리 IUMS 조직부위원장 : 정용석

1. 신광수 회장이 개회를 선언하고 인사말을 하고, 천세철 사무총장이 회의를 주재하다.

2. 2017년 회장단협의회 및 대의원회 명단을 확인하고 상견례를 하다.

3. 전 회의록을 낭독하고 이의 없이 접수하다

4. 2016년 감사 보고 및 인준을 하다.

5. 2017년 사업계획 및 예산을 검토하고 인준을 하다.

6. 2017년 감사는 연세대 정건섭 교수(2015년 연합회장)와 서울대 조남혁 교수(2016년 운 영위원회 사무총장)를 선출하여 인준하다.

7. 2018년 학술대회 주관학회인 한국미생물학회는 개최 장소를 The K 호텔(양재동 소재)로 정하고, 2018년 10월 11일(목)~12일(금)로 일정을 확정하다.

8. 2017년도 학술대회 예산 및 준비일정을 확인하다. 회의 내용 9. IUMS 2020 조직위원회 활동을 위한 한국미생물학회연합 국제학술대회 유치 기금 대여 요청을 승인하기로 하고, IUMS 2020 조직위원회는 추후 조직위 명단 등을 서면으로 제출 하고, 보고하기로 하다. 1) 대여 요청 금액 : 일천만원(\10,000,000) 2) 대여기간 : 2020년 9월 28일까지 (2020년 국제미생물학회연합(IUMS) 학술대회 종료 후 1달 이내 정산 완료시까지) 3) 대여조건 : 원금 + 은행 복리 이자 상환

10. 차후 운영위원회 등에서 IUMS 2020과 한국미생물학회연합 국제학술대회를 공동으로 주관하여 개최하는 안건을 논의하기로 하다.

11. 2017년 학회 등록비 인상안(일반사전등록 : 150,000원, 일반현장등록 : 180,000원, 학생 회원은 동일)을 확정하다.

* 폐회를 선언하다.

- 104 - ❙2016년도 유동자산 현황 및 회계 결산서❙

2016년 유동자산 현황(2017. 1. 2.기준)

(단위 : 원)

입금일 지급이자 세금차감후 항목 은행 구좌번호 금액 비 고 만기일 및 세액 금액

일반 국민 일반 855401-04-003057 24,355,964 - - - 회계 은행 회계용

조흥 371-03-008523 25,688,715 - - - 관리 은행 오피 스텔 2016.4.1 국민 전세 676515-20-11065 22,690,035 ~ 1.81% - 은행 보증금 2017.4.1

편집 조흥 위원회 371-03-010943 4,775 - - - 은행 기금

학술지 2016.12.30 2013~2017 국민 국제화 676515-20-23468 24,582,341 ~ 1.52% 발전 은행 발전기금 2017.12.30 기금

국제학술 2016.12.30 (2015 신규) 국민 대회유치 080815-22-42545 35,460,226 ~ 1.52% 유치 은행 기금 2017.12.30 기금

합 계 132,782,056

- 105 - 2016년도 회계 결산서 (일반회계)-2017.1.2일 작성 수입부 단위 : 원

15년 예산대비 2015년 실적 항목 예산 실적 실적대비 실적율 (15.12.31) 실적율 25,200,000 22,426,875 89% 20,636,844 109% 1. 신입회비 400,000 223,902 293,702 2. 정회원비 6,500,000 5,245,485 5,117,563 3. 이사회비 3,000,000 2,785,755 3,000,000 회비 4. 평의원비 8,000,000 6,979,780 6,221,280 5. 도서관비 2,600,000 1,600,000 2,800,000 6. 외국회비 400,000 184,045 166,812 7. 회장단비 2,800,000 4,457,475 2,292,500 8. 학생회비 1,500,000 950,433 744,987 28,500,000 36,020,000 126% 40,662,040 89% 1. 과총-국제학술지 지원 17,000,000 22,600,000 17,700,000 2. 과총-국내학술지 지원 11,000,000 9,390,000 10,340,000 보조금 3. 과총-국제학술대회지원 - - 11,700,000 4. 과총-국내학술대회지원 - 4,030,000 - 5. 과총-별도사업지원 500,000 - 922,040 45,000,000 40,165,899 89% 86,095,501 47% 1. 학회협찬(광고,부스) 10,000,000 5,130,000 17,800,000 2. 춘계학술대회 14,000,000 20,576,870 50,245,501 사업수입 3. 균류채집 및 다양성에 12,000,000 5,898,290 9,935,000 관한 워크숍 4. 추계학술대회(한미배당금) 9,000,000 8,560,739 8,115,000 50,000,000 45,979,036 92% 68,996,354 67% 1. 논문게재료 40,000,000 36,096,230 39,308,104 2-1. 찬조금 8,000,000 5,395,700 7,700,000 2-2. 찬조금(연구용역) - - 8,567,085 기타수입 2-3. 찬조금(속심비) - 850,000 1,100,000 3. 잡수입 1,000,000 - 20,000 4. 기타 - 3,477,106 11,347,165 5. 한국의 버섯목록 1,000,000 160,000 954,000

소계 148,700,000 144,591,810 97% 216,390,739 67%

전기이월금 22,572,722 22,572,722 21,656,345

합계 171,272,722 167,164,532 98% 238,047,084

- 106 - 지출부

예산대비 2015년 실적 15년 항목 예산 실적 실적율 (15.12.31) 실적대비 67,000,000 56,514,420 84% 60,851,479 93% 1. 한국균학회지 11,000,000 10,781,100 8,452,900 2. Mycobiology 13,000,000 10,264,100 12,479,400 3. 균학소식지 2,500,000 2,658,000 - 4. 논문속심비 6,000,000 6,000,000 5,300,000 회지 5. 영문교정료 7,000,000 3,439,420 3,500,479 간행비 6. 체재교열료 18,000,000 15,320,000 18,830,000 7-1. 전자문서(XMLink) 8,000,000 6,248,000 9,482,000 7-2. 전자문서(크로스디비) 1,500,000 1,550,000 2,475,000 8. 학술지국제화사업 - 253,800 331,700 9. 의편협KoreaMed 15,000,000 18,215,140 121% 44,062,433 41% 6,500,000 9,743,620 34,694,983 1. 춘계학술대회 8,000,000 4,504,870 8,691,550 2. 균류채집및다양성에 행사비 500,000 1,233,500 675,900 관한 워크숍 3. 추계학술대회 - 1,343,000 - 4. 한일균학회 - 1,390,150 - 회의비 1. 회의비 2,500,000 2,728,510 109% 3,832,810 71% 운영비 45,542,500 45,139,690 99% 43,687,165 103% 5,500,000 5,316,548 97% 5,367,193 99% 1. 과기총 830,000 830,000 830,000 2. IMA 900,000 756,548 799,754 연회비 3. 한미연 2,240,000 2,100,000 2,207,439 및 4. 한국학술단체총연합회 250,000 250,000 250,000 광고비 5. 한국농식품생명과학협회 300,000 300,000 300,000 6. 대한의편협 단체회원비 500,000 600,000 500,000 7. 과편협 단체회원비 480,000 480,000 480,000 5,800,000 3,976,670 69% 5,666,340 70% 1. 우편료 4,500,000 3,061,930 4,818,740 통신경비 2. 전화료 600,000 307,740 378,600 3. 교통비(편집간사 여비 포함) 700,000 607,000 469,000 7,700,000 10,917,590 142% 52,006,942 21% 1. 법인수수료 1,000,000 1,472,640 1,093,140 2. 이자세금 외 200,000 3,444,950 9,913,802 기타 3. 예비비 500,000 - - 4. 한국의 버섯목록 - - - 5. 학술지국제화 기금적립 6,000,000 6,000,000 6,000,000 6. 국제학술대회유치기금 - - 35,000,000 소 계 149,042,500 142,808,568 96% 215,474,362 66% 이월금 22,230,222 24,355,964 110% 22,572,722 합 계 171,272,722 167,164,532 98% 238,047,084

- 107 - ❙2017년도 예산❙ (사)한국균학회 2017년도 예산

2017년 1월 2일 작성 수 입 부 지 출 부 항 목 2017년 예산 항 목 2017년 예산 회비 25,100,000 회지간행비 55,000,000 1. 신입회비 300,000 1.한국균학회지 9,000,000 2. 정회원비 6,000,000 2. Mycobiology 10,000,000 3. 이사회비 3,500,000 3. 균학소식지 2,500,000 4. 평의원비 7,500,000 4. 속성심사료 5,000,000 5. 도서관비 2,000,000 5. 영문교정료 5,000,000 6. 외국회비 300,000 6.체제교열료 15,000,000 7. 회장단비 4,500,000 7. 전자문서작업(매년) 8,500,000 8. 학생회비 1,000,000 행사비 18,000,000 보조금 36,500,000 1. 춘계학술대회 9,500,000 1. 과총-국제학술지(Mycobiology) 22,000,000 2. 하계심포지엄 및 균류채집 8,000,000 2. 과총-국내학술지(한국균학회지) 10,000,000 3. 추계학술대회 500,000 3. 과총-국내학술대회 4,000,000 회의비 2,500,000 3. 과총-별도지원사업 500,000 운영비 48,700,000 사업수입 44,000,000 회비 및 광고비 5,500,000 1. 광고료 7,000,000 1. 과기총 830,000 2. 춘계대회 18,000,000 2.IMA 800,000 3. 하계심포지엄 및 균류채집 10,000,000 3. 한미연 2,240,000 4. 추계대회(한미연 배당금) 9,000,000 4. 한국학술단체총연합회 250,000 5. 한국농식품생명과학협회 300,000 6. 대한의편협 600,000 7. 과편협 480,000 기타수입 38,500,000 통신비 6,200,000 1. 논문게재료(영문교정료포함) 30,000,000 1. 우편료 5,000,000 2. 찬조금 7,000,000 2. 전화료 500,000 3. 잡수입(인세 외) 1,000,000 3. 교통비(편집간사 여비 포함) 700,000 4. 기타 기타 8,300,000 5. 한국의버섯목록 500,000 1.법인수수료 1,500,000 2. 이자세금 외 300,000 3. 예비비 500,000 5. 학술지 국제화 기금적립 6,000,000 소 계 144,100,000 소 계 144,200,000 이월금 24,355,964 예상 이월금 24,255,964 합 계 168,455,964 합 계 168,455,964

- 108 - ❙감사서❙

- 109 - ❙임원, 간사 및 위원회 명단❙ 2017년 한국균학회 임원 및 위원회 명단

회장 신광수(대전대)

차기회장 김기덕(고려대)

서건식(한국농수산대학), 부회장 김영동(〈주〉아이에스바이오), 전형곤(〈주〉한일사이메드) 임원 권경열(농업회사법인〈주〉뜰아채), 김완규(국립농업과학원), 김종국(경북대학교), 박희문(충남대), 이상엽(국립농업과학원), 이사 이윤수(강원대), 이종수(배재대), 신기선(한국생명공학연구원), 김성환(단국대)

감사 김정준(국립농업과학원), 김하근(배재대)

윤리위원장 김홍기(충남대)

운영위원장 천세철(건국대)

사업간사 가강현(국립산림과학원)

재무간사 김창무(국립생물자원관)

학술정보위원장 윤봉식(전북대)

학술간사 한갑훈(우석대)

정보간사 홍성기(국립농업과학원)

해외간사 최영준(군산대)

위원장 Mycobiology 편집위원장 김대혁(전북대) 및 Mycobiology 편집간사 김정미(원광대), 김창무(국립생물자원관), 간사 노현수(경상대), 상미경(국립농업과학원), 이정관(동아대), 이향범(전남대), 임영운(서울대), 정원희(중앙대), 최재혁(인천대), 홍승범(국립농업과학원)

한국균학회지 편집위원장 엄안흠(한국교원대)

한국균학회지 편집간사 가강현(국립산림과학원), 이동혁(국립원예특작과학원), 정희영(경북대), 최영준(군산대)

기금위원장 노재영(단국대)

기금간사 이시원(국립환경과학원)

균학용어심의위원장 석순자(국립농업과학원)

균학용어심의위간사 최효원(국립농업과학원)

- 110 - 위원장 Mycobiology : 김대혁(전북대), 한국균학회지: 엄안흠(한국교원대)

Mycobiology : 김정미(원광대), 김창무(국립생물자원관), 노현수(경상대), 상미경(국립농업과학원), 이정관(동아대), 이향범(전남대), 임영운(서울대), 간사 정원희(중앙대), 최재혁(인천대), 홍승범(국립농업과학원) 한국균학회지 : 가강현(국립산림과학원), 이동혁(국립원예특작과학원), 정희영(경북대), 최영준(군산대)

고한규(산림버섯연구소), 김경모(한국생명공학연구원), 김경수(강원대), 편집 김대호(강원대), 김순옥(국립생물자원관), 김승한(경북농업기술원), 위원회 김재진(고려대), 김정준(국립농업과학원), 김헌(한국화학연구원), 류재기(국립농업과학원), 박미정(국립원예특작과학원), 박숙영(순천대), 박승춘(경북대), 박영진(건국대), 박청(대전대), 배현종(전남대), 위원 백창기(국립원예특작과학원), 서영수(부산대), 성기호(가톨릭관동대 바이오융합연구원), 신기선(한국생명공학연구원), 어주경(국립생태원), 윤봉식(전북대), 이병주(충남농업기술원), 이창윤(에스비-바이오), 장영선(국립산림과학원), 전용호(안동대), 전준현(영남대), 조우식(경북농업기술원), 한갑훈(우석대), 한상국(국립수목원), 한재구(국립원예특작과학원),홍성기(국립농업과학원)

위원장 윤봉식(전북대)

학술 : 한갑훈(우석대), 정보 : 홍성기(국립농업과학원), 간사 해외 : 최영준(군산대)

학술정보 가강현(국립산림과학원), 김정준(국립농업과학원), 김창무(국립생물자원관), 위원회 김홍규(국립식량과학원), 성기호(가톨릭관동대 바이오융합연구원), 위원 이윤혜(경기농업기술원), 정원희(중앙대), 정희영(경북대), 조수묵(국립농업과학원), 천세철(건국대), 한상국(국립수목원), 허재선(순천대), 홍순규(극지연구소), 홍순영(제주농업기술원)

위원장 노재영(단국대) 기금 간사 이시원(국립환경과학원) 위원회 위원 박흥수(산림버섯연구소), 서건식(한국농수산대학), 지정현(경기농업기술원)

위원장 석순자(국립농업과학원)

균학 간사 최효원(국립농업과학원) 용어 가강현(국립산림과학원), 김순옥(국립생물자원관), 김창무(국립생물자원관), 심의 어주경(국립생태원), 이진성(국립생물자원관), 한상국(국립수목원), 위원회 위원 한재구(국립원예특작과학원), 허재선(순천대), 현익화(농림축산검역본부), 홍순규(극지연구소)

- 111 - ❙회원 명단❙

성 명 주 소 우편번호 전화번호 회원분류 강원 춘천시 효자2동 강원대학교 농생대 2호관 Ahmed I. S. Ahmed 24341 033-250-6417 정 108호 BHUSHAN 경기도 수원시 장안구 서부로 2066 성균관대학교 16419 031-290-7890 정 SHRESTHA 자연과학캠퍼스 생명공학연구원 강원 춘천시 효자2동 강원대학교 농생대 2호관 Dil Raj Yadav 24341 033-250-6417 학생 108호 강원 춘천시 효자2동 강원대학교 농생대 2호관 Mahesh Adhikari 24341 033-250-6417 학생 108호 NGUYEN TRUNG 인천 연수구 송도동 12-1 인천대학교 5호관 305호 22012 032-835-4612 학생 KIEN 서울특별시 동대문구 회기로 57번지 가강현 02455 6212-3545(집) 평 국립산림과학원 임산공학부 화학미생물과 대전 유성구 궁동 충남대학교 농업생명과학대학 강광훈 34134 042-821-7847 학생 1호관 1419호 강동완 경남 함양군 안의면 월림리13-1 경남농업기술원 50005 055-960-5832 정 대구 북구 동호동 경상북도농업기술원 강민구 41404 053-320-0475 정 농업환경연구과 서울특별시 동대문구 회기로 57 (청량리동, 강정아 02455 031-961-2790 학생 국립산림과학원) 화학미생물과 서울 노원구 공릉2동 삼육대학교 약학과 강태진 01795 02-3399-1608 정 (제3과학관 403호) 경기 안성시 석정동 67번지 한경대학교 강희완 17579 031-670-5420 평 미래융합기술대학원 식물바이오융합과 경기도감염병 경기도 성남시 분당구 대왕판교로 670 2A 305호 13494 031-628-6308 기관 관리본부 (삼평동 유스페이스) 경기도 화성시 병점중앙로 283-33(기산동, 경기도농업기술원 18388 031-229-5767 도서관 경기도농업기술원)도서관 전북 전주시 덕진구 덕진동1가 전북대학교 고요한 54898 063-270-3440 학생 자연과학대학 4호관 413호 생명공학연구실 경북 상주시 도남동 도남2길 137 고재덕 37242 054-530-0851 정 국립낙동강생물자원관 균류자원조사팀 113호 고평열 제주도 제주시 연동 1277-3번지 63079 010-2692-1715 정 경기도 여주시 농산로 90 (상거동, 산림조합중앙회) 고한규 12653 031-881-0232-3 평 산림버섯연구소 고효순 제주시 가령골길 41 63214 064-725-2351 학생 충북 음성군 소이면 비산리 80번지 인삼특작부 공원식 27709 043-871-5704 평 버섯과

- 112 - 성 명 주 소 우편번호 전화번호 회원분류 경기 포천시 소흘읍 고모리 국립수목원 곽영남 11186 031-540-1085 학생 산림생물조사과 미생물분류연구실 광주시 광산구 신창동 683-3 광주보건대도서관 광주보건대도서관 62287 도서관 정기간행물실 충청북도 청주시 서원구 충대로 1 (개신동, 구창덕 28644 043-261-2537 정 충북대학교) 농과대학 산림과학부 충남 예산군 예산읍 대회리 1번지 공주대학교 구한모 32439 041-330-1204 평 산업과학대학 식물자원학과 국립산림과학원도 서울시 동대문구 청량리동 207 국립산림과학원 02455 도서관 서관 도서관 정기간행물실 국립생물자원관 인천광역시 서구 경서동 종합환경연구단지 22689 032-590-7248 도서관 도서실 국립생물자원관 도서실 404호 충청남도 천안시 동남구 풍세면 태학산로 354 권경열 31214 041-553-6451 이사 (삼태리) 농업회사법인 뜰아채 서울 성북구 안암동5가 고려대학교 자연계캠퍼스 권선률 02841 02-3290-3635 학생 생명과학관 서관 431호 경남 진주시 초전동1085-1 경남농업기술원 권진혁 52733 055-771-6423 평 식물환경과 충청남도 천안시 동남구 단대로 119 (안서동, 권혁우 단국대학교 천안캠퍼스) 미생물학과 1과학관 520호 31116 정 진균생명공학실험실 경기도 광주시 곤지암읍 평촌길65번길 48 (삼리, 권희민 12805 031-229-6130 정 경기도농업기술원버섯연구소) 서울시 성북구 종암로25길 30, 삼성래미안 106동 김가연 02803 02-923-2798 정 201호 강원 춘천시 효자2동 강원대학교 농생대 김경수 24341 033-250-6435 평 응용생물학과 서울 성북구 안암동5가 고려대학교 자연계캠퍼스 김경원 02841 02-3290-3635 학생 생명과학관 서관 431호 강원도 강릉시 지변동 123번지 강릉대학교 김규중 25457 033-640-2314 평 자연과학대학 생물학과 서울 성북구 안암동 5가1 고려대 생명과학대학 김규혁 02841 3290-3014 정 환경생태공학부 경기도 안성시 미양면 서미로 260-18(법전리 김금희 17603 031-671-2641 평 58번지) 머쉬하트 영농조합법인 서울시 성북구 안암로 145 고려대학교 김기덕 02841 02-3290-3065 차기회장 자연계캠퍼스 생명과학대학 서관 507호 대전 유성구 궁동 충남대학교 농업생명과학대학 김나래 34134 042-521-7847 학생 1호관 1419호 강원도 춘천시 효자2동 강원대 산림과학대학 김남규 24341 043-644-3327 학생 산림자원보호학과 균학실험실 614호 전라북도 완주군 이서면 농생명로 166 (금평리, 김다연 55365 063-238-3050 정 국립농업과학원) 농업생물부 농업미생물과 511호

- 113 - 성 명 주 소 우편번호 전화번호 회원분류 전라북도 익산시 고봉로 79 (마동, 김대원 54596 학생 전북대학교익산캠퍼스) 2공학관 생명공학부 전북 전주시 덕진구 백제대로 567 전북대학교 김대혁 54898 063-270-3440 평 자연과학대학 생물과학부 강원 춘천시 효자2동 강원대학교 김대호 24341 033-250-8392 정 산림환경과학대학 1호관 614호 전북 익산시 마동 194-5 전북대학교 익산캠퍼스 김명곤 54596 063-850-0732 평 바이오식품공학과 서울특별시 동대문구 회기로 57 (청량리동, 김명길 02455 02-961-2761 정 국립산림과학원) 화학미생물과 전북 전주시 완산구 콩쥐팥쥐로 1515 김민경 54874 042-583-1968 정 한국농수산대학 작물보호실험실 김민경 인천서구경서동국립생물자원관미생물자원과 22689 032-590-7519 학생 경남 진주시 초전동 1085-1번지 경남농업기술원 김민근 52733 055-771-6448 정 친환경연구과 김민수 경기 고양시 덕양구 고양동 윤창아파트 103동 804호 10273 961-2757 정 경남 진주시 가좌동 경상대학교 27동 김민식 52828 055-752-1328 학생 공동실험실습관 518호 충북 청원군 오창읍 괴정리 383 충북농업기술원 김민자 28130 043-220-5701 정 친환경연구과 김범준 서울 동작구 흑석동 중앙대학교병원 피부과 06973 02-6299-1525 정 김병각 강남구도곡2동527도곡렉슬아파트206-1703 06276 6356-0357 종신 강원도 강릉시 지변동 123번지 강릉대 생명과학대 김병섭 25457 033-640-2353 평 식물응용과학과 강원 춘천시 효자2동 강원대학교 농생대 2호관 김상우 24341 033-250-6417 학생 108호 전북 익산시 익산대로 460 (신용동 344-2) 김상욱 54538 063-850-6827 정 원광대학교 생명자원과학대학 환경조경학과 제주 제주시 영평동 2170-1번지 김선희 제주첨단과학기술단지 스마트빌딩 406호 63309 064-805-8845 정 엠제이테크(주) 충청남도 천안시 동남구 단대로 119 (안서동, 김성환 31116 041-550-3454 이사 단국대학교천안캠퍼스) 미생물학과 서울특별시 동대문구 회기로 57 (청량리동, 김세훈 02455 02-961-2522 정 국립산림과학원) 화학미생물과 인천 서구 경서동 종합환경연구단지 김순옥 22689 032-590-7110 평 국립생물자원관 대구 북구 동호동 경상북도농업기술원 189 김승한 41404 053-320-0234 정 농업환경연구과 경남 진주시 가좌동 경상대학교 김신일 52828 055-772-1328 학생 공동실험실습관(27동) 518호 대전광역시 서구 관저동로 158 (관저동, 김영권 35365 042-600-6371 정 건양대학교병원) 의과학대학 임상병리학과

- 114 - 성 명 주 소 우편번호 전화번호 회원분류 김영권 경기도 화성시 정남면 정남동로 346 고려바이오(주) 18514 031-354-8183 평 (고려바이오) 대전광역시 유성구 테크노8로 58 1층 김영동 34028 042-824-1145 부회장 (주)일신바이오베이스 대전(아이에스바이오) 경기도 수원시 권선구 여기산로 42 성일아파트 031-291-9468( 김완규 16427 이사 102-412 자택) 대구시 북구 동호동 경북농업기술원 김우현 41404 정 농업환경연구과 전북 정읍시 신정동 1404 한국생명공학연구원 김윤석 56212 033-250-6417 학생 응용미생물연구센터 경기도 안성시 서운면 인리 239 송이올 김일중 17607 031-677-2255 평 농업회사법인(주) 충남 천안시 동남구 안서동 단국대학교천안캠퍼스 김재경 31116 041-550-1451 정 제3과학관 505호 전라북도 전주시 덕진구 백제대로 567 (금암동, 김재수 54896 063-270-2525 평 전북대학교) 농생대 농생물학과 서울시 서대문구 북가좌동 449번지 삼호아파트 김재웅 03690 2610-0801 종신 101동 901호 서울시성북구안암동5가1고려대학교생명과학대학 김재진 02841 3290-3049 평 서관환경생태공학부 경기도 성남시 분당구 안양판교로 1201-62(백현동 김재호 13539 031-780-9339 평 516) 한국식품연구원 중소기업솔루션센터 전라북도 익산시 익산대로 460 (신용동 344-2) 김정미 54538 063-850-6676 평 원광대학교 생명자원과학대학 생물환경화학과 전남 순천시 매곡동 순천대학교 공동실험실습관 김정아 57922 061-750-3947 정 303호 전북 완주군 이서면 농생명로 166 농촌진흥청 김정준 55365 063-238-3051 평 국립농업과학원 농업미생물과 경기도 광주시 곤지암읍 평촌길65번길 48 (삼리, 김정한 12805 031-229-6126 정 경기도농업기술원버섯연구소) 김종국 대구시 북구 산격동1370 경북대 자연대 미생물학과 41566 053-950-5379 이사 김종군(2016.1.12. 경기도안성시석정동한경대학교D동1층103호제1대 임시휴회처리 17579 041-581-3129 정 학원실 요청-국외에 있음. 김종영 광주시 북구 용봉동 전남대학교 농업실습교육원 61186 062-530-2014 정 충남 천안시 동남구 안서동 단국대학교 천안캠퍼스 김준영 31116 031-413-8489 학생 제1과학관 520호진균생명공학실험실 강원도 원주시 우산동 660번지 상지대학교 김준호 26339 033-730-0423 평 이공과대학 정밀과학신소재학과 김진우 경남 진주시 가좌동 경상대학교 452동 343호 52828 055-751-5442 정 서울시 동대문구 전농동 90 서울시립대 김진원 02504 6490-2690 평 자연과학대학 환경원예학과 인천광역시 서구 경서동 종합환경연구단지 김창무 22689 032-590-7315 평 국립생물자원관 하등식물연구과

- 115 - 성 명 주 소 우편번호 전화번호 회원분류 경기도 포천시 소흘읍 광릉수목원로 415 김창선 11186 031-540-1082 정 국립수목원 산림생물조사과 김창수 전북 진안군 진안읍 연장리 796-1 55440 063-290-6344 정 강원도 원주시 단구로 171 (명륜동, 김태헌 26441 033-769-1632 정 국립공원연구원) 대전광역시 서구 배재로 155-40(도마동) 김하근 35345 042-520-5389 평 배재대학교 바이오,의생명공학과 서울시 동대문구 전농동 90 서울시립대학교 김하원 02504 2210-2480 평 자연과학대학 생명과학과 김헌 대전 유성구 장동 한국화학연구원 5연구동 113호 34114 042-860-7436 정 서울 관악구 신림9동 서울대학교 김헌 08826 02-880-4635 정 농업생명과학대학 200동 1028호 강원 춘천시 효자2동 강원대학교 김현승 24341 033-250-6417 학생 농업생명과학대학 2호관 108호 전북 순창군 순창읍 백산리 744-10 김현영 56048 063-650-5451 정 순천군장류사업소 경기도 안양시 만안구 안양로 175 김현주 14089 031-202-6966 평 농림축산검역본부 식물검역기술개발센터 경기도 수원시 영통구 원천동 552 김형식 16675 031-236-9780 정 수원영통이노플렉스 1-607 에이티에스코리아 경기 성남시 분당구 백현동 한국식품연구원 김혜련 13539 031-780-9109 정 우리술연구팀 김호명 광주 북구 용봉동 전남대학교 농생대 3호관 316호 61186 062-530-0028 정 대전광역시 유성구 대학로 99 충남대학교 김홍기 34134 042-821-5768 평 농업생명과학대학 응용생물학과 경상남도 함안군 칠서면 대부로 551 (주)일신산업 남기두 52001 055-589-1300 평 칠서에탄올공장 충청남도 논산시 부적면 마구평리 35-19 남명현 32914 042-226-6695 정 충남농업기술원 논산딸기시험장 노재영 충남 천안시 서북구 성거읍 오목리 53-1 ABI 31043 041-550-3475 평 경상남도 진주시 진주대로 501 경상대학교 노현수 52828 055-772-1328 평 미생물학과 농림축산검역본부 경북 김천시 혁신 8로 177(율곡동) 39660 054-912-0349 도서관 도서관 농림축산검역본부 도서관 (본관동 112호) 농촌진흥청 전북 전주시 완산구 중동 694-9 농촌진흥청 54875 063-238-0542 도서관 농업과학도서관 농업과학도서관 전북 완주군 이서면 농생명로 166 농촌진흥청 류재기 55365 063-238-3391 평 국립농업과학원 농산물안정성부 유해생물팀 경남 진주시 초전동 1085-1번지 경남농업기술원 류재산 52733 055-750-6283 평 버섯연구실 충북 청주시 흥덕구 개신동 충북대학교 류호진 28644 043-261-2293 정 자연과학대학 생물학과 대전시 유성구 궁동 220 충남대학교 생명과학부 맹필재 34134 042-821-6415 평 미생물학과

- 116 - 성 명 주 소 우편번호 전화번호 회원분류 문길동 서울 중구 태평로1가 서울시청 공원과 04524 3707-8594 정 경남 진주시 가좌동 경상대학교 문윤정 52828 055-772-1328 학생 공동실험실습관(27동) 518호 충청북도 음성군 소이면 비산로 92 (비산리) 문지원 27709 043-871-5712 정 국립원예특작과학원 인삼특작부 버섯과 310호 전북 완주군 이서면 농생명로 166 국립농업과학원 문지은 55365 063-238-2000 학생 농업미생물과 541호 명예(종 민경희 서울시 서초구 방배 2동 2739-7 06761 584-5201 신) 서울특별시 성북구 안암로 145 (안암동5가, 민미희 고려대학교안암캠퍼스 자연계) 생명과학대학 서관 02841 02-3590-3635 학생 431호 민성환 충남 부여군 석성면 현내리 233-3 33177 041-8005-2114 학생 전북 완주군 이서면 농생명로 166 농촌진흥청 민진홍 55365 학생 국립농업과학원 농업미생물과 민태진 서울시 동작구 사당1동 316-130 156-091 2260-3211 정 서울 서대문구 연세로 50 연세대학교 연세공학원 박금주 03722 02-3277-8558 정 지하1층 풀무원 식문화연구원 전북 완주군 이서면 농생명로 100 농촌진흥청 박미정 55365 정 국립원예특작과학원 환경과 202호 경남 진주시 가좌동 경상대학교 27동 박민사 52828 055-772-1328 학생 공동실험실습관 518호 경북경주시석장동707동국대과학기술대학생명공 박상신 38066 054-770-2225 평 학과 제주특별자치도 제주시 제주대학로 102 (아라일동, 박상율 63243 064-754-3425 정 제주대학교) 해양의생명과학부 경기 평택시 진위면 갈곶길 38(갈곶리 277-1) 박순애 17708 031-372-0122 평 머쉬아트 영농조합법인 대구 북구 산격동 1370번지 경북대학교 수의대 박승춘 41566 053-950-5964 정 약동력학실험실 서울시 종로구 자하문로 28길 22(청운동) 박영곤 03047 02-722-4512 정 한국경제신문 해외지사 경기 성남시 수정구 복정동 가천대학교 박영서 13120 031-750-5378 정 식품생물공학과 예음관 428호 서울특별시 동대문구 회기로 57 (청량리동, 박영애 02455 02-961-2755 정 국립산림과학원) 화학미생물과 산림미생물실험실 충북 충주시 단월동 322 건국대학교 의료생명대학 박영진 27478 043-840-3601 정 생명과학부 응용생화학 경기도 성남시 분당구 정자로 56 (정자동, 박완희 13612 031-711-7079 종신 상록마을라이프아파트) 103동 1502호 충청북도 청주시 서원구 충대로 1 (개신동, 박용우 충북대학교) 농업생명환경대학 산림학과 S21-5 28644 043-261-3274 학생 263호 산림생태학 연구실

- 117 - 성 명 주 소 우편번호 전화번호 회원분류 경기 부천시 원미구 역곡2동 산 43-1 가톨릭대학교 박용일 14662 02-2164-4512 평 생명공학부 다솔관7층 740호

서울특별시 동대문구 회기로 57 (청량리동, 박원철 02455 961-2751 평 국립산림과학원) 화학미생물과

전북 완주군 이서면 농생명로 166 농촌진흥청 박인철 55365 063-238-3068 평 국립농업과학원 농업미생물과 대전 유성구 궁동 충남대학교 농업생명과학대학 박주영 34134 043-845-5390 학생 1호관 1419호 경남 진주시 가좌동 경상대학교 27동 박주완 52828 055-772-1328 학생 공동실험실습관 519호 서울특별시 성동구 마장로37길 7 (마장동, 박지헌 04755 산림과학원 정 대성유니드아파트) 103-403 충청북도 청주시 흥덕구 강내면 태성탑연로 250 박혁 (다락리, 한국교원대학교) 자연관 28173 043-230-3767 학생 125호(균학연구실) 서울 동대문구 회기로 57 국립산림과학원 박현 02455 02-961-2870 평 기후변화연구센터 서울 성북구 안암동5가 고려대학교 자연계캠퍼스 박홍재 02841 02-3290-3631 학생 생명과학관 서관 L211호 경기도 여주시 농산로 62 산림조합중앙회 박흥수 12653 070-7005-3291 정 산림버섯연구센터 센터장 대전광역시 유성구 대학로 99 충남대학교 박희문 34134 042-821-6417 이사 생명과학부 미생물학과 경상북도 경산시 하양읍 하양로 13-13 (금락리, 박희성 대구가톨릭대학교) 생명공학과 성토마스관(D9) 38430 059-850-3245 정 316호 박희수 대구시 북구 산격동 경북대학교농생대 3호관 303호 41566 053-950-5751 정 서울시 서대문구 신촌동 134 연세대학교 반용선 03722 02-2123-5558 평 생명시스템대학 생명공학과 서울 서대문구 홍제1동 361-221 유림빌딩 3층 배동훈 03641 02-391-0950 정 한국미생물보존센터 배상민 대전 서구 도마동 배재대학교 자연과학관 424호 35345 학생 광주 북구 용봉로 77 전남대학교 배현종 61186 062-530-2097 정 바이오에너지공학과 백광현 경상북도 경산시 대학로 280 영남대학교 38541 053-810-3029 정 전북 전주시 완주군 농생명로 100 백창기 55365 정 국립원예특작과학원 원예특작환경과 202호 부산가톨릭대학교 부산광역시 금정구 오륜대로 57 (부곡동, 46252 051-510-0752 도서관 중앙도서관 부산가톨릭대학교) 중앙도서관 부산대학교 부산시 금정구 부산대학로 63번길 2(장전동) 회비는부산대 46241 도서관 제1도서관 부산대학교 제1도서관 자료개발실 로 전북 완주군 이서면 농생명로 300 농촌진흥청 상미경 55365 063-238-3055 평 국립농업과학원 농업생물부 농업미생물과

- 118 - 성 명 주 소 우편번호 전화번호 회원분류 서건식 전북 전주시 완산구 콩쥐팥쥐로 1515 한국농수산대학 54874 063-238-9006 부회장 서울 동대문구 청량리동 국립산림과학원 보전부동 서수영 02455 02-961-2790 정 105호 부산광역시 금정구 부산대학로63번길 2 (장전동, 서영수 46241 051-510-2267 정 부산대학교) 자연대학교 미생물학과 서울 동작구 상도1동 숭실대학교 서정아 06978 02-820-0449 정 의생명시스템학부 벤처중소기업센터 604호 경남 진주시 초전북로100 경남농업기술원 석수원 52733 055-771-6448 정 친환경연구과 토양/비료팀 전북 완주군 이서면 농생명로 166 농촌진흥청 석순자 55365 063-238-3026 평 국립농업과학원 농업미생물과 인천광역시 서구 심곡로 100번길 25 성기호 가톨릭관동대학교 의과대학 국제성모병원 22711 032-290-2772 평 바이오융합연구원 성재모 강원도 횡성군 청일면 도시리 459-1 25255 033-250-6435 평 전북 전주시 덕진구 백제대로 567 전북대학교 소금강 54898 063-270-3440 학생 자연과학대학 4호관 2413호 생명공학연구실 경기 남양주시 진접읍 금곡리 1108번지 소재우 12064 02-2210-2968 학생 (해밀예당3로, 68) 금강 펜테리움 1908-1103 경상남도 김해시 활천로202번길 42-1 (어방동, 송연호 50839 055-545-3204 학생 아이존빌) 107동 101호 경남 진주시 가좌동 경상대학교 27동 송예린 52828 055-752-1328 학생 공동실험실습관 518호 전라북도 익산시 고봉로 79 (마동, 송자경 54596 학생 전북대학교익산캠퍼스) 2공학관 생명공학부 대전 유성구 궁동 충남대학교 응용생물학 전공 송정영 34134 042-821-7847 정 1419호 대전시 동구 대학로 62(용운동 96-3) 대전대학교 신광수 34520 042-280-2439 회장 생명과학부 신기선 대전 유성구 과학로 125번지 한국생명공학연구원 34141 042-860-4624 이사 전북 완주군 이서면 농생명로166 국립농업과학원 신다정 55365 063-238-2000 학생 농업미생물과 경기도 성남시 중원구 상대원동 138-6 신우창 13202 031-739-5381 평 중앙인더스피아 5차 911-914호 (주)국순당연구소 신자원 대전 서구 도마2동 배재대학교 자연과학관 J424호 35345 042-520-6250 학생 강원 춘천시 효자2동 강원대학교 신종환 24341 033-235-6435 학생 농업생명과학대학 2호관 112호 경기 화성시 반송동 시범다은마을 월드메르디앙 신태영 18438 063-238-3076 정 반도유보라아파트 331동 2501호 서울시 성북구 안암동 5가1 고려대학교 신현동 02841 3290-3063 평 생명과학대학 서관 전라북도 전주시 완산구 백제대로 13 (삼천동1가, 심규광 55092 063-283-7414 정 고층우성아파트) 101동 109호

- 119 - 성 명 주 소 우편번호 전화번호 회원분류 서울시동대문구서울시립대로163,서울시립대학교 명예(종 심미자 02504 02-6490-2665 생명과학과 신)

충청남도 천안시 동남구 단대로119 (안서동, 안금란 단국대학교 천안캠퍼스) 첨단과학대학 520호 31116 041-621-1234 학생 진균생명공학실험실

전북 완주군 이서면 농생명로 166 국립농업과학원 안성호 55365 063-238-3076 정 농업생물부 512호 안지은 서울 동대문구 휘경동 179-20 02430 02-961-2796 학생 충청남도 천안시 동남구 단대로119 (안서동, 안홍석 단국대학교 천안캠퍼스) 자연과학대학 520호 31116 041-529-6160 학생 진균생명공학실험실 광주시 북구 용봉동 300 전남대 농생대 양광열 61186 062-530-2076 정 식물생명공학부 양동훈 서울 서대문구 신촌동 연세대학교 공학원 B118CA 03722 070-7578-1598 학생 전북 전주시 덕진구 금암동 전북대학교 양한을 54898 063-270-3440 학생 자연과학대학4호관 413호 어주경 경기도 성남시 중원구 하대원동 121-5 202호 13387 031-753-5237 정 충청북도 청주시 흥덕구 강내면 태성탑연로 250 엄안흠 28173 043-230-3767 평 (다락리, 한국교원대학교) 생물교육학과 연세대 서울시 서대문구 신촌동 134 연세대 중앙도서관 03722 도서관 중앙도서관 정기간행물실 예광북스(가톨릭 서울 마포구 서교동 484-4 예광북스(가톨릭대, 04029 02-2164-4028 도서관 대) (성심교정)도서관) 대전광역시 유성구 대학로 99 충남대학교 오상근 34134 042-821-5762 정 농업생명과학대학 응용생물학과 경기도 포천시 소흘읍 광릉수목원로415 (직동리) 오순옥 11186 031-540-1070 정 국립수목원 충북 음성군 소이면 비산리 80번지 인삼특작부 오연이 27709 031-290-0368 정 버섯과

서울특별시 동대문구 회기로 57 (청량리동, 왕은진 02455 02-961-2522 정 국립산림과학원) 화학미생물과

강원도 원주시 상지대길 83(우산동) 상지대학교 유관희 26339 033-730-0433 평 생명과학과

전북 완주군 이서면 농생명로 166 농촌진흥청 유기범 55365 063-238-3026 정 국립농업과학원 농업미생물과 서울시 동대문구 회기로 57 국립산림과학원 유림 02455 02-962-1363 정 화학미생물과 유성제 전북 완주군 이서면 농생명로166 국립농업과학원 55365 학생 대전시 유성구 궁동 220 충남대 농업생명과학대학 유승헌 34134 042-821-5762 명예 응용생물학과 충남 서천군 장항읍 장산로 101번길 75 유영현 33662 정 국립해양생물자원관 322호 해양미생물팀

- 120 - 성 명 주 소 우편번호 전화번호 회원분류 전북 완주군 이서면 농생명로 166 농촌진흥청 유재홍 55365 063-238-3069 정 국립농업과학원 농업미생물과 윤권상 경기도 이천시 부발읍 죽당1리 31-6 467-861 033-250-8541 정 인천 연수구 송도동 12-1 인천대학교 자연과학대학 윤기남 22012 032-835-8242 정 305호 응용미생물학교실 버섯균주및 DNA은행 경기 안성시 석정동 한경대학교 제1농학관 윤덕훈 17579 031-678-4643 정 410호(원예학과) 전북 익산시 마동 194-5 전북대학교 윤봉식 54596 063-850-0839 평 환경생명자원대학 생명공학부 충청남도 아산시 신창면 순천향로 22 (읍내리, 윤성환 순천향대학교) 자연과학대학 생명과학부 31538 041-530-1288 평 식물환경생명공학전공(유리온실동) 충청남도 천안시 동남구 단대로119 (안서동, 윤여홍 31116 063-862-3211 정 단국대학교 천안캠퍼스) 1과학관 520호 강원도 춘천시 효자2동 강원대학교 윤영하 24341 033-2508-392 학생 산림환경과학대학 1호관 614호 충청북도 음성군 소이면 비산로 92 (비산리) 이강효 27709 043-871-5718 정 국립원예특작과학원 인삼특작부 버섯과 대구 북구 산격동 대학로 80 경북대학교 생물학관 이난영 41566 053-950-5379 학생 427호 경북 군위군 소보면 소보안계로 107 이동혁 39000 054-380-3170 평 국립원예특작과학원 사과연구소 이만휘 대구시 북구 산격3동 1370 경북대학교 수의과대학 41566 053-950-5967 정 충청남도 부여군 규암면 흥수로 486 (노화리) 이문행 33119 041-635-6369 정 충남농업기술원 부여토마토시험장 이민웅 경기도 양평군 청운면 갈운리 107번지 12532 02-2265-9156 명예 경기도 용인시 수지구 성복2로 126 (성복동, 이병국 16851 031-888-5606 정 성동마을LG빌리지3차아파트) 이병군 경기 여주군 흥천면 대당리 13-31 뉴란바이오 12606 031-881-2123 정 경기도 여주시 농산로 90 (상거동, 산림조합중앙회) 이병석 12653 041-732-0723 정 산림버섯연구소 충청남도 예산군 신암면 추사로 167 (종경리, 이병주 32418 041-330-6301 평 충청남도농업기술원) 생물환경과 전북 완주군 이서면 농생명로 166 국립농업과학원 이병주 55365 063-238-2000 학생 농업생물부 농업미생물과 충청북도 청주시 서원구 원흥로 14 (산남동, 이봉형 28628 학생 부영사랑으로아파트) 103동 902호 전북 익산시 마동 194-5 전북대학교 이상명 54596 063-850-0843 정 환경생명자원대학 생명공학부 이상몽 경남 밀양시 부북면 가산리 259-1 50401 055-355-8360 정 전북 완주군 이서면 농생명로 166 농촌진흥청 이상엽 55365 063-238-3048 이사 국립농업과학원 농업미생물과 강원 춘천시 효자2동 강원대학교 산림대1호관 이선근 24341 033-250-8392 학생 614호

- 121 - 성 명 주 소 우편번호 전화번호 회원분류 경기도 성남시 분당구 백현동 한국식품개발연구원 이성훈 13539 031-780-9318 정 전통식품연구단 이송미 전남 나주시 대호동 동신대학교 3공학관 4층 403호 58245 061-330-3222 정 전북 전주시 덕진구 백제대로 567 전북대학교 이송희 54898 063-270-3440 정 자연과학대학 4호관 2413호 생명공학연구실 충청북도 청주시 서원구 충대로 1 (개신동, 이수민(충북) 충북대학교) 농업생명환경대학 91동 325호 28644 043-261-2556 학생 식물의학과 진균병학실험실 경북 안동시 송천동 388번지 안동대학교 이순구 36729 054-820-5509 평 자연과학대학 생명자원과학부 농생물학전공 인천 서구 경서동 종합환경연구단지 이시원 22689 032-560-8354 평 국립환경과학원 상하수도연구과 경남 진주시 가좌동 경상대학교 27동 이시은 52828 055-772-1328 학생 공동실험실습관 518호 경기도 성남시 분당구 야탑동 아이파크아파트 이영남 13505 종신 103-1504호 서울시 성북구 안암동 5가 고려대학교 이영민 02841 02-3290-3635 학생 자연계캠퍼스 생명과학대학서관 431호 서울특별시 관악구 관악로1 서울대학교 이용환 08826 02-880-4674 정 농업생명과학대학 200동 농생명공학부 강원도 춘천시 효자2동 강원대학교 이윤수 24341 033-250-6417 이사 농업생명과학대학 생물자원공학부 경기도 광주시 곤지암읍 평촌길65번길 48 (삼리, 이윤혜 12805 031-229-6121 평 경기도농업기술원버섯연구소) 충청북도 청주시 흥덕구 강내면 태성탑연로 250 이은화 28173 043-230-3767 학생 (다락리, 한국교원대학교) 자연관 125호 전라북도 익산시 고봉로 79 (마동, 이인경 54596 010-2335-3097 평 전북대학교익산캠퍼스) 2공학관 생명공학부 서울시 관악구 신림9동 산56-1번지 서울대학교 이인원 08826 평 농업생명과학대학 농생명공학부 경기 성남시 분당구 백현동 한국식품연구원 이장은 13539 031-780-9367 정 전략산업연구본부 경기도 수원시 장안구 송죽동 산 28-1 이재구 16296 031-259-0424 정 경기과학고등학교 부산시 사하구 낙동대로 550번길 37(하단동) 이정관 49315 051-220-7554 평 동아대학교 생명자원과학대학 이종국 충남 예산군 신암면 종경리 365 충남농업기술원 32418 041-330-6296 정 이종규 강원도 춘천시 효자2동 192-1 강원대 산림자원학부 24341 033-250-8364 평 대전광역시 서구 배재로 155-40(도마동) 이종수 35345 042-520-5388 이사 배재대학교 바이오,의생명공학과 이지열 서울시 노원구 하계동 284 청구아파트 7동 203호 139-936 975-6717 정 경기도 성남시 분당구 정자로 56 103동 1502호 이지헌 446-762 031-306-7050 정 (정자동, 상록마을)

- 122 - 성 명 주 소 우편번호 전화번호 회원분류 충북 음성군 소이면 비산리 80번지 인삼특작부 이찬중 27709 043-871-5711 정 버섯과 충청북도 충주시 충원대로 268 (단월동, 이창수 건국대학교글로컬캠퍼스자연대학교) 공동연구동 27478 043-840-3572 정 617호 분자생화학실험실 이창윤 경북 경산시 삼풍동 태왕드림하이츠 109동 1207호 38543 054-373-8252 정 이태수 인천시 연수구 송도동 12-1 인천대학교 생물학과 22012 032-835-4619 명예 경기도 하남시 위례순환로 270(학암동) 이태수 13013 02-2644-1460 정 푸르지오아파트 6508호 104호 이태희 울산광역시 중구 성남동 72-3 44529 052-211-1558 정 서울 성북구 안암동5가 고려대학교자연계캠퍼스 이한별 02841 02-3290-3635 학생 생명과학대학 서관 431호 환경생물공학 실험실 광주광역시 북구 용봉로 77(용봉동) 전남대학교 이향범 농업생명과학대학 농식품생명화학부 61186 062-530-2136 평 생명화학전공 강원 원주시 우산동 상지대학교 이공과대학 이혁제 26339 033-730-0436 정 생명과학과 자연과학관 2111호 경상남도 진주시 진주대로 501 경상대학교 이현숙 52828 055-751-5940 평 자연과학대 미생물학과 경기도 화성시 병점중앙로 283-33 (기산동, 이현주 18388 031-229-5833 정 경기도농업기술원) 서울 성북구 안암동5가 고려대학교자연계캠퍼스 이호정 02841 02-3290-3006 정 생명과학대학 서관 509호 충청북도 청주시 서원구 충대로 1 (개신동, 이화용 충북대학교) 농생대 S21-5동 263호 산림학과 28644 043-261-2532 학생 산림생태학실험실 인천시 남구 도화동 177 인천대학교 이공관 320호 임경환 22100 032-835-8298 평 응용미생물학연구실 경기 안성시 석정동 한경대학교 임선화 17579 031-678-4741 학생 미래융합기술대학원 D-103 서울특별시 관악구 관악로1 (신림동, 서울대학교) 임영운 08826 02-880-6708 평 자연과학대학 생명과학부 임재춘 서울 강서구 등촌동 684-2 우리벤쳐타운 501호 07573 2063-0606 정 대전 동구 가양2동 77-3 대전보건대학교 장관순 34504 042-670-9224 평 환경보건과 충남 예산군 예산읍 대학로54 공주대학교 장명준 32439 정 산업과학대학 식물자원학과 전북 익산시 신용동 344-2 원광대 생명자원과학대 장석기 54536 정 학생물환경과학부 환경조경학전공 서울 성북구 안암동5가 고려대학교 자연계캠퍼스 장석윤 02841 02-3290-3635 학생 생명과학관 서관 431호 서울시 동대문구 회기로57 (청량리동, 장영선 02455 02-3290-3635 정 국립산림과학원) 화학미생물과

- 123 - 성 명 주 소 우편번호 전화번호 회원분류 경상북도 상주시 가장동 386 경북대학교 장태현 37224 054-530-1204 평 상주캠퍼스 식물지원학과 전낙범 충청남도 예산군 광시면 광시동로 (서초정리) 497-2 32455 031-204-0918 정 전라북도 전주시 덕진구 백제대로567 (금암동, 전상철 54896 063-270-3358 정 전북대학교) 생물과학부 미생물실험실 전성민 서울시 금천구 문성로 48 동아연립 A-104호 08551 961-2757 정 전북 완주군 이서면 농생명로 166 농촌진흥청 전영아 55365 정 국립농업과학원 농업유전자원센터 제주특별자치도 제주시 제주대학로 102 (아라일동, 전용철 63243 064-754-3319 평 제주대학교)생물산업학부 식물자원환경전공 전북 완주군 이서면 농생명로 166 농촌진흥청 전유정 55365 학생 국립농업과학원 농업미생물과 경남 진주시 가좌동 경상대학교 27동 전정훈 52828 055-772-1325 학생 공동실험실습관 525호 전창성 경기도 화성시 서신면 홍법리 98 18556 05-572-7723 평 대전광역시 유성구 송림로 48번길 5-4 한일빌딩 2층 전형곤 34098 042-825-4260 부회장 (주)한일사이메드 충북 증평군 증평읍 용강리 24 충주대학교 정경환 27909 02-406-1298 정 증평캠퍼스 식품생명공학부 경남 진주시 가좌동 경상대학교 27동 정광희 52828 055-772-1322 학생 공동실험실습관 252호 광주시 북구 용봉동 300 전남대 생명과학기술학부 정기철 61186 062-530-2161 평 미생물공학과 경북 상주시 도남동 도남2길 137 정남일 37242 054-530-0850 정 국립낙동강생물자원관 균류자원조사팀 113호 전라북도 순창군 순창읍 민속마을길61-27 (백산리) 정도연 56048 063-653-9577 정 (재)발효미생물산업진흥원 정득종 경북 포항시 남구 해도동 33-18 37788 정 정묘진 서울 강서구 등촌동 684-2 우리벤쳐타운 501호 07573 2063-0606 정 대구 북구 산격동 대학로 80 경북대학교 생물학관 정민지 41566 053-950-5379 학생 427호 경기도 부천시 소사구 소사로78번길 72 (소사본동, 정연석 14774 02-961-2790 정 소사주공1단지아파트 충남 부여군 규암면 합정리 한국전통문화학교 정용재 33115 041-830-7365 평 보존과학과 경기도 안성시 대덕면 내리 72-1 중앙대학교 정원희 17546 031-670-3062 평 시스템생명공학과 경기 광주시 곤지암읍 평촌길 65번길 48 정윤경 12805 031-229-6126 정 경기도농업기술원 버섯연구소 서울 관악구 관악로1 서울대학교 자연과학대학 정은일 08826 02-880-4426 학생 생명과학부 502-403 충청북도 충주시 대소원면 대학로 50 (검단리, 정재현 27469 043-841-5248 정 충주대학교) 식품공학과

- 124 - 성 명 주 소 우편번호 전화번호 회원분류 서울시 동대문구 답십리3동 493-5 클래식타워 정정옥 02604 02-2215-7204 정 902호 충북 음성군 소이면 비산리 80번지 인삼특작부 정종천 27709 평 버섯과 대구광역시 북구 대학로 80 (산격동, 경북대학교) 정희영 41566 053-950-5760 평 농업생명과학대학 2호관 201호 전북 전주시 덕진구 덕진동1가 전북대학교 조명진 54898 063-270-3440 학생 자연과학대학 4호관 413호 생명공학연구실 서울 성북구 안암동5가 고려대학교자연계캠퍼스 조성은 02841 02-3290-3495 학생 생명과학관 서관 L403호 전북 완주군 이서면 농생명로 166 농촌진흥청 조수묵 55365 063-238-2114 평 국립농업과학원 기획조정과 대구시 북구 동호동 189번지, 경북농업기술원 조우식 41404 054-832-9669 평 농업환경연구과 경기도 포천시 소흘읍 광릉수목원로 415 (직동리) 조종원 11186 033-252-6698 학생 국립수목원 산림생물조사과 대전광역시 유성구 신성동 302번지 KT&G 조혜선 34128 042-866-5359 정 중앙연구원 전북 전주시 덕진구 백제대로 567 전북대학교 죠티란잔발 54898 063-270-3440 정 자연과학대학 4호관 413호 경남 진주시 가좌동 경상대학교 공동실험실습관 주은진 52828 055-772-1322 학생 27동 522호 서울 광진구 화양동 건국대학교 생명환경과학대학 지상혜 05029 070-8201-3727 학생 111호 경기도 광주시 곤지암읍 평촌길65번길 48 (삼리, 지정현 12805 031-229-6120 정 경기도농업기술원버섯연구소) 전북 완주군 이서면 농생명로 166 농촌진흥청 진용주 55365 063-238-3026 정 국립농업과학원 농업미생물과 채순기 대전 서구 도마2동 배재대학교 생명공학과 35345 042-520-5614 평 전북 익산시 마동 194-5 전북대학교 익산캠퍼스 채종찬 54596 063-850-0840 정 생명공학부 서울특별시 광진구 능동로120 (화양동, 건국대학교) 천세철 05029 02-450-3727 평 생명환경과학대학 생명자원식품공학과 대전 유성구 장동 100 한국화학연구원 5 연구동 최경자 34114 042-860-7434 정 113호 대구 북구 산격동 경북대학교 자연과학대학 최광식 41566 053-950-5351 정 생물학관 226호 전라북도 군산시 대학로 558 (미룡동, 군산대학교) 최영준 54150 063-469-4582 평 자연과학대학 생물학과 전라남도 곡성군 옥과면 대학로113 (옥과리) 최용수 57500 062-514-5262 평 전남과학대학 화훼원예과 서울특별시 관악구 관악로 1 (신림동, 서울대학교) 최응칠 08826 02-880-7874 종신 약학대학 미생물 및 면역학실 29동 212호

- 125 - 성 명 주 소 우편번호 전화번호 회원분류 서울시 성북구 안암동 5가 1 고려대(자연계) 최인걸 02841 02-3290-3152 정 생명과학대학 생명공학과 서울특별시 관악구 관악로1 (신림동, 서울대학교) 최인규 08826 989-3419 평 농업생명과학대학 산림과학부 환경재료과학전공 전북 익산시 신흥동270 전라북도농업기술원 최인영 54591 063-290-6083 정 친환경농업과 충청북도 청주시 흥덕구 강내면 태성탑연로 250 최재욱 28173 042-625-3119 학생 (다락리, 한국교원대학교) 자연관 125호 인천 연수구 송도동 인천대학교 5호관 354호 최재혁 22012 032-835-8242 평 (아카데미로 119) 경기도 광주시 곤지암읍 평촌길65번길 48 (삼리, 최종인 12805 031-764-0264 정 경기도농업기술원버섯연구소) 최지호 전북 완주군 이서면 농생명로166 농촌진흥청 55365 063-238-3616 정 대구 북구 산격동 대학로 80 경북대학교 생물학관 최혜림 41566 053-950-5379 학생 427호 전북 완주군 이서면 농생명로 166 농촌진흥청 최효원 55365 063-238-3310 평 국립농업과학원 작물보호과 경남 진주시 가좌동 경상대학교 경상대학교 하병석 52828 055-772-1328 학생 공동실험실습관 27동 518호 전북 완주군 삼례읍 후정리 490 우석대학교 한갑훈 55338 063-290-1427 평 제약공학과 충청북도 청주시 흥덕구 강내면 태성탑연로 250 한국교원대 (다락리, 한국교원대학교) 중앙도서관 28173 도서관 중앙도서관 정기간행물실 한국농수산대학 전라북도 전주시 완산구 콩쥐팥쥐로 1515 (중동, 54874 도서관 도서관 한국농수산대학) 도서관 정기간행물실 경기도 포천시 소흘읍 광릉수목원로 415 (직동리) 한상국 11186 031-540-1085 정 국립수목원 산림생물조사과 대전광역시 서구 배재로 155-7 (도마동, 한상민 35346 042-520-6250 학생 경남아파트2단지) 105동 1305호 충청북도 청주시 서원구 충대로 1 (개신동, 한성순 28644 043-62-2391 종신 충북대학교) 약대 한영환 경북 경주시 석장동 707 동국대학교 생물학과 38066 054-743-9794 평 충청북도 음성군 소이면 비산로 92 농촌진흥청 한재구 27709 043-871-5716 정 국립원예특작과학원 인삼특작부 버섯과 강원 춘천시 효자2동 강원대학교 농생대2호관 한준희 24341 033-250-6435 학생 112호 전북 완주군 이서면 농생명로 166 국립농업과학원 함현희 55365 063-238-3399 정 농산물안전성부 311호 서울특별시 성북구 안암로 145 (안암동5가, 고려대학교 허영목 02841 02-3590-3635 학생 안암캠퍼스 자연계) 생명과학대학 서관 431호 허재선 전남 순천시 매곡동 315 순천대 환경교육과 57940 061-750-3383 평 대구광역시 수성구 동원로 (만촌동, 허태철 42038 053-290-4755 정 메트로팔레스1단지아파트) 203동 206호

- 126 - 성 명 주 소 우편번호 전화번호 회원분류 현세희 대전 서구 도마2동 배재대학교 자연과학관 J424호 35345 042-520-6250 학생 전북 완주군 이서면 농생명로 166 농촌진흥청 홍성기 55365 063-238-3412 평 국립농업과학원 유해생물팀 인천광역시 연수구 송도동 7-50번지 홍순규 송도테크노파크 갯벌타워 407호 극지연구소 21999 032-760-5580 평 극지바이오센터 제주도 서귀포시 중산간서로 212(강정동) 제주도 홍순영 63556 064-760-7211 평 농업기술원 연구협력실 전북 완주군 이서면 농생명로 166 농촌진흥청 홍승범 55365 평 국립농업과학원 농업미생물과 전북 완주군 이서면 농생명로 166 농촌진흥청 홍인표 55365 평 국립농업과학원 잠사양봉소재과 서울특별시 성북구 안암로 145 (안암동5가, 홍주현 고려대학교 안암캠퍼스 자연계) 생명과학대학 서관 02841 02-3290-3635 학생 431호 충남 서천군 장항읍 송림리 국립해양생물자원관 홍지원 33662 041-950-0743 정 연구행정동 322호 해양식물팀 전라북도 익산시 고봉로 79 (마동, 황병순 54596 학생 전북대학교익산캠퍼스) 2공학관 생명공학부 부산광역시 금정구 부곡 3동 9번지 황수명 46252 051-510-0563 정 부산가톨릭대학교 보건과학대학 임상병리학과

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김민경(국립생물자원관) 신태영(국립농업과학원)

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한일사이메드 ISSN 2288-257X 제29권 1호 KSM Newsletter

2017년 한국균학회 춘계학술대회 및 임시총회 한국균학회소식지 2017 KSM Annual International Conference

서울특별시 성북구 안암로 145 고려대학교 생명과학대학 서관 427호 Tel : 02-953-8355 Fax : 02-953-8359 E-mail : [email protected]