DOCSLIB.ORG

Download Molecular & Cellular Biology of Filamentous Fungi-Pas

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Download Molecular & Cellular Biology of Filamentous Fungi-Pas Molecular & Cellular Biology Of Filamentous Fungi-Pas, Nick Talbot, Oxford University Press, 2005, , . DOWNLOAD HERE Molecular Fungal Biology , Richard P. Oliver, Michael Schweizer, Aug 5, 1999, Medical, 377 pages. Advanced undergraduate textbook for courses in biotechnology, fungal biology and fungal genetics.. Fungi in Bioremediation , Geoffrey M. Gadd, Nov 15, 2001, Medical, 481 pages. An authoritative account of the application of fungi to the treatment of environmental pollution.. Molecular and Cell Biology Methods for Fungi , Amir Sharon, Mar 18, 2010, , 321 pages. With the development of fungal transformation systems and the deciphering of an increasing number of fungal genomes, this diverse clade of heterotrophic eukaryotic organisms .... Horticultural Science , Jules Janick, Feb 15, 1986, Gardening, 746 pages. Designed for the beginning horticultural student, Janick's book examines the scientific concepts upon which horticulture is based, viewing horticulture from the standpoints of .... Molecular and Cellular Biology of Filamentous Fungi A Practical Approach, Nicholas J. Talbot, 2001, Science, 267 pages. This volume brings together detailed practical guidance from experienced researchers using genetic, genomic, cellular and biochemical methods, to attempt to determine the .... Book Description: Oxford University Press, Oxford, 2001. Softcover. Book Condition: Near Fine. Dust Jacket Condition: No Dust Jacket. First. 9 1/2 x 7 1/2. Part of the Practical Approach series. In green pictorial card covers with black and white titles. No dust Jacket. 267 pages. Book is near fine, clean and unmarked. Text book of tested protocols and practical guidance for the study of filamentus fungi. Bookseller Inventory # 905399 Book Description: Oxford University Press, USA 6/28/2001, 2001. Paperback. Book Condition: Very Good. 0199638373 Very Good Condition and Unread! Text is clean and unmarked! Light shelf wear to cover from storage, crease. --Be Sure to Compare Seller Feedback and Ratings before Purchasing-- Has a small black line on bottom/exterior edge of pages. **Heavier books will require additional postage for International** PA Sales Tax is included in purchase price. Bookseller Inventory # OXPB10JUNJVG-109A-0199638373 Book Description: 2013. Paperback. Book Condition: New. Please note this copy of Molecular and Cell Biology of Filamentous Fungi A Practical Approach by Nicholas J. Talbot is a PRINT ON DEMAND title and a new copy will be printed for your order. It should be with you within 8 or 9 working days for UK deliveries. International delivery varies by country. Simple no nonsense service from Wordery. Bookseller Inventory # 9780199638376 Book Description: Oxford University Press, United Kingdom, 2001. Paperback. Book Condition: New. 246 x 189 mm. Brand New Book ***** Print on Demand *****. The identification and characterisation of genes from filamentous fungi has become easier because of the rapid advances that have taken place in molecular biology, including the generation of whole genome sequences. The new challenge facing researchers is to determine the functions of genes and how they contribute to the biology of fungi. To do this, it is clear that a wide variety of different experimental techniques will be necessary, ranging from classical genetic analysis and mutant production, right through to cell biology, biochemistry and immunological methods. This book brings together detailed practical guidance from experienced researchers using the full range of these genetic, genomic, cellular and biochemical methods. The authors describe laboratory procedures that have been proven effective for the investigation of a wide variety of fungal species. They give key background information, technical tips and detailed experimental protocols, which will prove invaluable to researchers and students studying filamentous fungi. Bookseller Inventory # APC9780199638376 Book Description: Oxford University Press, Oxford, 2001. Book Condition: New. Language: english. This volume brings together detailed practical guidance from experienced researchers using genetic, genomic, cellular and biochemical methods, to attempt to determine the functions of genes and how they contribute to the biology of fungi. Print On Demand. Bookseller Inventory # 6519377 Book Description: Paperback. Book Condition: New. 186mm x 16mm x 245mm. Paperback. The identification and characterisation of genes from filamentous fungi has become easier because of the rapid advances that have taken place in molecular biology, in.Shipping may be from our UK, US or Australian warehouse depending on stock availability. This item is printed on demand. 288 pages. 0.644. Bookseller Inventory # 9780199638376 Description: New. This item is printed on demand. The identification and... New. This item is printed on demand. The identification and characterization of genes from filamentous fungi has become easier because of the rapid advances that have taken place in molecular biology, including the generation of whole genome sequences. The ne. Description: New. Trade paperback (US). Glued binding. 288 p. Contains:... New. Trade paperback (US). Glued binding. 288 p. Contains: Illustrations. Practical Approach (Paperback). In Stock. 100% Money Back Guarantee. Brand New, Perfect Condition, allow 4-14 business days for standard shipping. To Alaska, Hawaii, U.S. protectorate, P.O. box, and APO/FPO addresses allow 4-28 business days for Standard shipping. No expedited shipping. All orders placed with expedited shipping will be cancelled. Over 3, 000, 000 happy customers. Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited, Baker & Taylor, Inc., or by their respective licensors, or by the publishers, or by their respective licensors. For personal use only. All rights reserved. All rights in images of books or other publications are reserved by the original copyright holders. Paul M. Kirk et al., Ainsworth & Bisby’s Dictionary of the Fungi, 9th ed. (2001), remains the standard reference for terminology and definitions. David Moore and LilyAnn Novak Frazer, Essential Fungal Genetics (2002); Nick Talbot, Molecular and Cellular Biology of Filamentous Fungi: A Practical Approach (2001); and Dilip K. Arora and Randy M. Berka, Applied Mycology and Biotechnology: Volume 5, Genes and Genomics (2005), explore the genetics and cellular biology of fungi. Discussions of physiological topics of fungi include D.H. Jennings, The Physiology of Fungal Nutrition (2007); and David H. Griffin, Fungal Physiology, 2nd ed. (1996). Thomas H. Nash, Lichen Biology (1996); William Purvis, Lichens (2000); and James N. Corbridge and William A. Weber, Rocky Mountain Lichen Primer (1998), provide an introduction to lichens. Irwin M. Brodo, Sylvia Duran Sharnoff, and Stephen Sharnoff, Lichens of North America (2001); and Margalith Galun, CRC Handbook of Lichenology, vol. 2 (1988), are comprehensive works on lichenology and useful reference sources. Abstract: Laccases are enzymes widely distributed in plants, fungi, bacteria, and insects. They are multicopper oxidases that catalyze the transformation of aromatic and non-aromatic compounds with reduction of molecular oxygen to water. These enzymes participate in processes such as biosynthesis and lignin degradation, morphogenesis, and pigment biosynthesis, among others. In this review we discuss relevant aspects of fungal laccases regarding the existence of fungal laccases gene families, the growing interest in investigating mechanisms of their molecular regulation, and factors that influence the production of laccases, due to their potential biotechnological applications. In addition we comparatively analyzed some structural similarities and differences depicting general features of laccases' active site, demonstrating their frequency as monomeric proteins with highly conserved cupredoxine type domains. Although inter- and intra-specific differences have been determined, structural differences encountered between fungal laccases remain unclear based on Crystallography and X-ray diffraction. Abstract: A very large number of diseases in agriculture and aquaculture are caused by fungal-like micro-organisms, classified as Oomycetes or water moulds. Collectively, oomycetes represent a huge threat to global food security. In addition, several oomycetes can cause environmental disasters, by wiping out native species of trees, crustacians and amphibians. The group representing the aquatic oomycetes are relatively understudied in contrast to their terrestrial counterparts that predominantly infect plants (e.g. Phytophthora, Pythium and Bremia spp.). This review focuses on the unique characteristics of two aquatic Oomycetes, Saprolegnia parasitica and Saprolegnia diclina with respect to their impact on aquaculture, animal health and the surrounding environment. The species characteristics, ecology, biology, infectivity and identification methods are described and the latest research insights are discussed. Abstract: LaeA was first identified as a novel Aspergillus nuclear protein which functions as a global regulator of secondary metabolism, morphogenetic development, and antibiotic production in various filamentous fungi. Since then, it has been studied extensively by research groups around the world in order to identify virulence factors, transcription factors and/or cryptic secondary metabolite gene clusters regulated by LaeA. The coupling of LaeA with VeA and VelB as a nuclear complex, the “Velvet Complex―, has greatly impacted
Load more

Recommended publications
  • Annual Report 2010 Contents
    Annual Report 2010 Contents Vice-Chancellor’s introduction 1 Investing in success 3 Research that makes a difference 5 Research highlights 7 A top 10 student experience 11 Truly world class 13 Creating a world-class university together 15 Responsible, sustainable and ethical 17 Governance 19 Sport and wellness 21 Students’ Guild 23 People 24 Facts at a glance 28 Our mission inside back cover Cover: The new Business School building. The year at a glance • Exeter was ranked among the top 200 universities in the • The ongoing £275 million capital development programme world for the first time, coming 184th in theTHE World on the Streatham Campus progressed well. New University Rankings. student accommodation at Birks and Duryard, the INTO international students centre on Stocker Road, the new • We were ranked among the top 100 fastest-growing Business School building and Biosciences refurbishment organisations in Europe and top 25 in the UK in a survey were all delivered by the early part of 2011. by business analysts Dun and Bradstreet. • At our Cornwall Campus, the Environment and • We are proposing to charge a £9,000 UK and European Sustainability Institute won formal approval, securing Union undergraduate fee across all programmes for new £30 million in investment from the European Regional entrants from September 2012. Nobody from these areas Development Fund, the South West RDA, HEFCE and has to pay anything upfront and we will have a generous the University. scheme of bursaries and fee waivers in place. This will enable us to continue to provide a student experience • The Students’ Guild was officially recognised as the best of the highest quality and more fully fund widening student union in the UK in the 2010 NUS Awards.
    [Show full text]
  • The Zymoseptoria Tritici Orfeome: a Functional Genomics
    bioRxiv preprint doi: https://doi.org/10.1101/582205; this version posted March 20, 2019. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-ND 4.0 International license. 1 The Zymoseptoria tritici ORFeome: a functional genomics 2 community resource 3 4 Yogesh Chaudhari*,a, Timothy C. Cairns*,b, Yaadwinder Sidhua, Victoria Attaha, 5 Graham Thomasa, Michael Csukaic, Nicholas J. Talbotd, David J. Studholmea,e, Ken 6 Haynesa,f. 7 *Authors contributed equally to this study 8 aBiosciences, University of Exeter, Exeter EX4 4QD, United Kingdom 9 bCurrent address; Tianjin Institute of Industrial Biotechnology, Chinese Academy of 10 Sciences, Tianjin, 300308, China 11 cSyngenta, Jealott’s Hill International Research Centre, Bracknell, RG42 6EY 12 dCurrent address; The Sainsbury Laboratory, University of East Anglia, Norwich 13 Research Park, NR47UH, United Kingdom 14 eCorresponding author ([email protected]) 15 fAuthor deceased 16 Emails: 17 [email protected] 18 [email protected] 19 [email protected] 20 [email protected] 21 [email protected] 22 [email protected] 23 [email protected] 24 [email protected] 25 1 bioRxiv preprint doi: https://doi.org/10.1101/582205; this version posted March 20, 2019. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity.
    [Show full text]
  • Chitosan Inhibits Septin‐Mediated Plant Infection by the Rice Blast
    Full Paper Chitosan inhibits septin-mediated plant infection by the rice blast fungus Magnaporthe oryzae in a protein kinase C and Nox1 NADPH oxidase-dependent manner Federico Lopez-Moya1 , Magdalena Martin-Urdiroz2 , Miriam Oses-Ruiz2,3 , Vincent M. Were2,3 , Mark D. Fricker4 , George Littlejohn2,5 , Luis V. Lopez-Llorca1 and Nicholas J. Talbot2,3 1Laboratory of Plant Pathology, Department of Marine Sciences and Applied Biology, University of Alicante, Alicante 03690, Spain; 2School of Biosciences, University of Exeter, Exeter, EX4 4QD, UK; 3The Sainsbury Laboratory, Norwich Research Park, Norwich, NR4 7UH, UK; 4Department of Plant Science, University of Oxford, South Parks Road, Oxford, OX1 3RB, UK; 5School of Biological and Marine Sciences, Plymouth University, Portland Square Building Room A404, Drake Circus, Plymouth, PL4 8AA, UK Summary Author for correspondence: Chitosan is a partially deacetylated linear polysaccharide composed of b-1,4-linked units of Nicholas J. Talbot D-glucosamine and N-acetyl glucosamine. As well as a structural component of fungal cell Email: [email protected] walls, chitosan is a potent antifungal agent. However, the mode of action of chitosan is poorly understood. Received: 16 May 2020 Here, we report that chitosan is effective for control of rice blast disease. Chitosan applica- Accepted: 25 January 2021 tion impairs growth of the blast fungus Magnaporthe oryzae and has a pronounced effect on appressorium-mediated plant infection. Chitosan inhibits septin-mediated F-actin remodelling New Phytologist (2021) 230: 1578–1593 at the appressorium pore, thereby preventing repolarization of the infection cell. doi: 10.1111/nph.17268 Chitosan causes plasma membrane permeabilization of M.
    [Show full text]
  • Report to Donors 2007/08 Contents
    Report to Donors 2007/08 Contents 1 Vice-Chancellor’s message of thanks 2 A fantastic year 4 How gifts are making a difference 6 Gift helps to fight world hunger 10 An enduring legacy It is a source of great pride for me to support the University 14 Funding the arts of Exeter. I hope an increasing number of alumni and friends ‘‘ will be inspired to support the University as it goes from 16 Our Annual Fund telethon strength to strength. 18 Alumni make a difference Nicholas Bull (Chemistry 1973) Chairman of the Fundraising Campaign Board 20 Be inspired ’’ Professor Steve Smith, Vice-Chancellor of the University of Exeter, with the 2008 Vice-Chancellor’s Excellence Scholarship undergraduates. Dear Friends, It is wonderful to see so many names in this year’s donor list. I would like to say thank you to everyone who has supported the University of Exeter during the year. 2007/08 has been a fantastic year for fundraising with more than £3.75 million raised in donations and pledges. ese are very exciting times for the University of Exeter. We have continued our rise up the UK university league tables, coming 13th in e Times ranking (out of 120 listed universities) and fourth for student satisfaction. We were also awarded the 2007/08 University of the Year by e Times Higher Education . I am very proud of our achievements to date, but we cannot afford to rest on our laurels. Our next aim is to break in to the top 10 universities in the UK by 2012.
    [Show full text]
  • Impact of Genomics on Fungal Biology
    by no means be mistaken as meaning low-end. At present, Impact of genomics on fungi serve as model systems for various aspects of molecular fungal biology and cellular biology, for example cell cycle regulation, intra- cellular signaling, metabolic pathway analysis and transcriptional regulation (Feldbrügge et al., 2004; Jiang, 2006; Oliver, 2006). They are also increasingly used on an industrial scale in the IXth International Fungal Biology Conference & production of chemical compounds or in bioremediation 16th New Phytologist Symposium Nancy, France, (Grimm et al., 2005; Tortella et al., 2005). Some of the most September 2006 recent and exciting advances within the field of fungal biology Fungi represent an extremely diverse and complex class of have been linked with genomic studies. To explore these, the organisms, and their categorization as ‘lower eukaryotes’ should IXth International Fungal Biology Conference & 16th New Forum 459 Phytologist Symposium entitled ‘Impact of Genomics in Fungal and for a long time it was merely descriptive. Nevertheless, Biology’ was held in Nancy, France (http://www.newphytologist. this created the starting point for our work with fungi today, org/fungal-genomics/default.htm). The meeting brought and microscopy, in all its different variations, is still a very together nearly 100 scientists, from all areas of fungal research, important tool. Another aspect that powered fungal research and highlighted a wide range of impacts that genome sequencing was the fact that many economically important plant has and will have on our understanding of fungal biology. diseases threatening animal and human food supplies are of fungal origin. A more recent discovery, in historic terms, was the growth-promoting effect of certain mycorrhizal fungi on almost all land plants.
    [Show full text]
  • The CSI Effect In
    Microbiology TODAY Microbiology Today 44:4 November 2017 Microbiology in Popular Culture Popular Microbiology in 44:4 2017 November Microbiology Today 44:4 November 2017 Microbiology in Popular Culture Genome editing and the cultural imagination Managing the myths – the CSI effect in forensic science Killer microbes in movies Fungal disease and the end of the world as we know it? Terra Firma II: terraforming Earth’s sequel CHLORAMPHENICOL Widely distributed throughout the body, including CSF1 Oral levels comparable to i.v. levels2 Rarely implicated with C.diffi cile3,4 5 REASONS Effective against serious infections including: 1,5 TO PUBLISH WITH US H. infl uenzae Typhoid1,5 MRSA2 VRSA6 WE ARE A LEADING PUBLISHER IN THE Neisseria1,5 FIELD OF MICROBIOLOGY 1,5 Legionella The Microbiology Society has been publishing research for 69 years, and now has a portfolio of 1,5 1 Rickettsia six peer-reviewed journals, with over 3,500 articles submitted in 2015. C.diffi cile7-10 E. coli1 WE ARE A NOT-FOR-PROFIT ORGANISATION Unlike commerical publishers, we invest our publishing surplus to advance the understanding Abbreviated Prescribing Information distension, pallid cyanosis, vomiting, progressing to vasomotor collapse, and impact of microbiology by connecting and empowering communities worldwide, through: Chloramphenicol Capsules BP 250mg irregular respiration and death within a few hours of the onset of symptoms. 2 international conferences, professional development, policy, education and outreach. Presentation: Hard Gelatin Capsules. Overdose: Stop chloramphenicol immediately if signs of adverse events Indications: Typhoid fever and life-threatening infections, particularly develop. Treatment is mainly supportive. If an allergy develops, oral those caused by Haemophilus Infl uenzae, where other antibiotics will antihistamines may be used.
    [Show full text]
  • Postgraduate Prospectus 2012 University of E Xeter
    University ofUniversity Exeter Postgraduate Prospectus 2012 EXETER AND CORNWALL CAMPUSES www.exeter.ac.uk Postgraduate Prospectus 2012 Prospectus Postgraduate www.exeter.ac.uk/postgraduate Key contacts Postgraduate Admissions Office Accessibility Service in Exeter USEFUL WEBSITES 8th Floor Laver Building The Old Library North Park Road Prince of Wales Road University of Exeter Exeter Exeter www.exeter.ac.uk EX4 4QE EX4 4SB UK UK Postgraduate study site Phone: 0844 6200012 Phone: +44 (0) 1392 723880 www.exeter.ac.uk/postgraduate (UK callers)* Email: [email protected] Updated throughout the year. Contains +44(0)1392 723044 www.exeter.ac.uk/disability detailed information on postgraduate (EU/International callers) study at the University of Exeter. Accessibility Service in Cornwall Email: [email protected] Student Services Postgraduate funding * Calls to this number are charged at 3p per minute from Tremough Campus a standard BT line. Calls from a mobile may vary. www.exeter.ac.uk/funding Penryn Cornwall International Office Virtual campus tours TR10 9EZ Phone: +44 (0)1392 723405 www.exeter.ac.uk/virtualtours UK Email: [email protected] Phone: +44 (0) 1326 370443 INTO University of Exeter Centre PGCE programmes Email: [email protected] www.into.uk.com/exeter A separate prospectus is available from: Details of English language courses Graduate School of Education University switchboard at Exeter. University of Exeter +44 (0)1392 661000 Heavitree Road Exeter EX1 2LU UK Phone: +44 (0)1392 723009 Email: [email protected] www.exeter.ac.uk/education Alternative formats This prospectus is available in alternative formats.
    [Show full text]
  • Financial Statements 2013-2014
    FINANCIAL STATEMENTS 2013 - 2014 The University is strongly “ placed for the increasingly “ challenging environment in Higher Education. Sarah Turvill Chair of Council FINANCIAL STATEMENTS 2013 - 2014 CHANCELLOR: The UK Higher Education sector has entered Baroness Floella Benjamin, OBE HonDLitt Exon an unprecedented era of change and uncertainty, PRO-CHANCELLORS: Sarah Turvill, LLB (Hons) Exon so it is heartening to reflect on another successful Peter Lacey, BSc BArch Bath RIBA year for the University, increasing our league Richard M P Hughes (Finance), MA Oxon FCA table position in the UK, now ranked 7th by the VICE-CHANCELLOR AND CHIEF EXECUTIVE: Professor Sir Steven M Smith, BSc MSc PhD S’ton Hon DSc S’ton Hon DEd UWE Times and Sunday Times league tables and 154th PROVOST AND SENIOR DEPUTY VICE-CHANCELLOR: in the Times Higher Education World University Professor Janice M Kay, BA Newc PhD Cantab AFBPsS appointed 1 August 2014 Rankings. In the 2014 National Student Satisfaction Professor Neil Armstrong, BEd MSc Lough PhD appointment ended 31 July 2014 DSc Exon Hon DSc Coimbra Hon LLD Brock survey, the University achieved the highest level of DEPUTY VICE-CHANCELLORS: student satisfaction among the 24 institutions in Professor Mark Goodwin, PhD LSE Professor Nick Talbot, BSc PhD UEA the Russell Group, the UK’s elite group of Professor Nick Kaye, BA, PhD, FRSA appointed 1 August 2014 research-intensive universities and 4th Professor Janice M Kay, BA Newc PhD appointment ended 31 July 2014 Cantab AFBPsS in the UK. CHIEF OPERATING OFFICER: Now in my second year as Chair of the University’s Geoff Pringle, HCIMA governing body, I can personally commend the outstanding DEPUTY CHIEF OPERATING OFFICER AND DIRECTOR OF ACADEMIC commitment and professionalism of our staff who focus on SERVICES: delivering a learning experience second to none, undertake Michele I Shoebridge, BA (Hons), PG Dip.Lib MA exciting and, in many cases, life-changing research and CHIEF FINANCIAL OFFICER: provide brilliant support to our talented staff and students.
    [Show full text]
  • Effectors in Plant–Microbe Interactions
    22nd New Phytologist Symposium EEffffeeccttoorrss iinn ppllaanntt––mmiiccrroobbee iinntteerraaccttiioonnss INRA Versailles Research Centre, Paris, France 13–16 September, 2009 Programme, abstracts and participants 22nd New Phytologist Symposium Effectors in plant–microbe interactions INRA Versailles Research Centre, Paris, France Organizing committee Sophien Kamoun (The Sainsbury Laboratory, JIC, UK) Marc-Henri Lebrun (CNRS-Bayer Cropscience, France) Francis Martin (INRA-Nancy, France) Nick Talbot (University of Exeter, UK) Holly Slater (New Phytologist, Lancaster, UK) Acknowledgements The 22nd New Phytologist Symposium is funded by the New Phytologist Trust. New Phytologist Trust The New Phytologist Trust is a non-profit-making organization dedicated to the promotion of plant science, facilitating projects from symposia to open access for our Tansley reviews. Complete information is available at www.newphytologist.org Programme, abstracts and participant list compiled by Jill Brooke. ‘Effectors in plant-microbe interactions’ illustration by A.P.P.S., Lancaster, U.K. 1 Table of Contents Programme ........................................................................................ 3 Speaker Abstracts ............................................................................. 6 Poster Abstracts .............................................................................. 33 Participants ...................................................................................... 69 2 Programme Sunday 13 September (Hotel Novotel Château de
    [Show full text]
  • ISMB 2005 Posters
    ISMB 2005 Posters 1 RNA and Protein Structural Biology Poster A-2 (There will also be an oral presentation of this poster.) A Conserved Sparse Dicodon Framework Which Correlates Sequence and Structure: Implications for Gene Finding David Halitsky (Cumulative Inquiry, Inc); Arthur Lesk (Dept of Haemaology, CIMR); Jacques Fresco (Princeton University) Abstract: Analysis of di-codon pairs in mRNA sequences can identify structurally similar features in the encoded proteins via a sparse signal characterized by number and order of certain dicodons occuring within codon subsequences of specific lengths. The signal reliably detects structurally similar features with virtually no underlying sequence similarity. Poster A-3 De Novo Assembly of Transmembrane Helices of Polytopic Membrane Proteins Using Sequence Conservation Patterns Yungki Park (Center for Bioinformatics, Saarland University); Volkhard Helms (Center for Bioinformatics, Saarland University) Abstract: A novel two-step method for modeling structures of transmembrane helix bundle proteins was developed: generation of libraries of folds and specification of the best fold based on sequence conservation patterns. For a broad spectrum of test proteins, it consistently generated model structures within CA RMSDs of 3 5 . Poster A-4 Protein-Protein Docking Methods Used to Study Complex Protein Interactions Dana Haley-Vicente (Accelrys); Tim Glennon (Accelrys) Abstract: Understanding the protein-protein interactions is important for insights into signal transduction pathways. Here we have applied
    [Show full text]
  • Executive Board Member), Camborne School of Mines (Board Member), Fxplus Chair
    CNL/18/56 Council MINUTES AND ACTIONS 19 April 2018 10:00-17:00hrs Tremough House Boardroom, Penryn Campus CONTENTS: Council Meeting No. Item 1 Chair’s Introduction 2 Minutes of the Meeting of 22 February 2018 (CNL/18/24) and Matters Arising - Senate motion and the industrial action in relation to the Pensions’ dispute - CSM Update (CNL/18/25) - Bracton Law Society - Presentation: In-year NSS Score Interventions (CNL/18/26) - Maximising the use and effectiveness of the University’s Innovation Centre (CNL/18/55) 3 Dual Assurance 4 Effectiveness Review Update (CNL/18/27) 5 Vice-Chancellor's Report (CNL/18/28) 6 Second Financial Forecast (CNL/18/29) 7 Investment Policy (CNL/18/30) 8 Spring Term Reports 2017/18 - Students' Guild (CNL/18/31) - FXU (CNL/18/32) 9 Funding Approvals - Financial Impact of Capital Approvals (CNL/18/33) - Project Exceptional Building Strategic Outline Case (CNL/18/34) - Full Business Case for Multi Storey Carpark (CNL/18/35) - Low Carbon Commitment and Implementation Plan (CNL/18/36) - Cross Keys Refurbishment Outline Business Case (CNL/18/37) - Harrison Asbestos Removal and Associated LTM Works (CNL/18/38) - PET-CT Scanner (CNL/18/39) 10 Due Diligence/Sanctions Policies - Due Diligence Policy (CNL/18/40) - Sanctions Policy (CNL/18/41) 11 Freedom of Speech Policy (CNL/18/42) 12 HESA Return (CNL/18/43) 13 Matters brought forward from Part II (CNL/18/44) 14 Chair's Closing Remarks 1 CNL/18/56 Attendees Present Sarah Turvill Pro-Chancellor and Chair Professor Sir Steve Smith Vice-Chancellor and Chief Executive Nicholas
    [Show full text]
  • Genome Dynamics of a Cereal Killer: Strategies for Controlling Ancient
    Genome Dynamics of a Cereal Killer: Strategies for Bangladeshi fields with 100% loss. Controlling Ancient and Emerging Crop Diseases Magnaporthe oryzae causes: Ancient disease: rice blast Emerging disease: wheat blast Ministry of Agriculture ordered infected fields burned 2007 Photo: Valent 2009 Photo: von Tiedemann & Duveiller Rice pathotype Wheat pathotype Barbara Valent Dept. of Plant Pathology, Kansas State University Nature 532, 421-422 (2016) Plant Diseases Threaten our Food Wheat blast caused by the fungus Magnaporthe oryzae Potato Late Blight – Phytophthora infestans Banana Fusarium Wilt – F. oxysporum cubense Triticum pathotype Hard to control: One spore can kill the entire wheat head. One useful resistance gene gives partial head blast control. Irish Potato Famine New Race TR4 Favorable environment Wheat Stem Rust – Puccinia graminis tritici Rice Blast – Magnaporthe oryzae oryza overwhelms resistance plus fungicides. Seed-borne fungus with potential huge impact on global grain trade. New Race UG99 Super Hybrid Rice in China Warm rainy weather at heading results in 100% empty heads. Wheat blast Presentation Outline Wheat blast identified in Brazil in 1985; spread to other countries in South America; jumped to Bangladesh in 2016. • M. oryzae is highly evolved for pathogenicity on grasses Effectors: pathogen proteins specifically expressed and secreted in the host Spore Appressorium Biotrophic Interfacial Complex Brazil, 2012 Invasive Hyphae Cytoplasmic Effectors • Evolutionary genomics Bangladesh, 2016 Paritosh Malaker – Genome dynamics with supernumerary mini-chromosomes CIMMYT – Mobile EFFECTOR genes impact blast disease control Wheat blast affected ~15% of total wheat area in Bangladesh in the first year 1 Presentation Outline Effectors are generally small unique proteins only expressed during plant invasion • M.
    [Show full text]