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Referees and Advisers to Geographia Polonica 2013
REFEREES AND ADVISERS TO GEOGRAPHIA POLONICA 2013 The Editors would like to extend their deepest thanks to all the Reviewers and Advisers for their special ef- fort, commitment and invaluable contribution in reviewing the papers submitted to Geographia Polonica. CHRISTINA ANAGNOSTOPOLUOU Aristotle University of Thessaloniki, Thessaloniki, Greece Andrzej ArAźny Nicolaus Copernicus University, Toruń, Poland KAI BÖHME Spatial Foresight GmbH, Heisdorf, Luxembourg EMMANUELLE BOULINEAU Ecole Normale Supérieure de Lyon, France PETER BROEDE Leibniz Research Centre for Working Environment and Human Factors, Dortmund, Germany TANJA CEGNAR Hydrometeorological Institute of Slovenia, Ljubljana, Slovenia LydiA Coudroy de Lille University of Lyon (Lumière-Lyon 2), France KEVIN CULLINANE Edinburgh Napier University, UK KONRAD CZAPIEWSKI Institute of Geography and Spatial Organization PAS, Warsaw, Poland Maciej dąbski University of Warsaw, Poland KONRAD DRAMOWICZ Centre of Geographic Sciences, Lawrenctown, Canada MAREK DUTKOWSKI University of Szczecin, Poland WILFRIED ENDLICHER Humboldt University of Berlin, Germany CHRIS DE FREITAS The University of Auckland, Auckland, New Zealand Christopher Godfrey University of North Carolina, Asheville, USA DAGMAR HAASE Humboldt University of Berlin, Germany ROBERT L. HODGART The University of Edinburgh, UK MiChAeL hoyLer Loughborough University, UK VLADIMIR IRA Institute of Geography, Slovak Academy of Sciences, Bratislava, Slovakia Gerd jendritzky University of Freiburg, Germany CHRISTER JONASSON AbiskoScientific -
EMBC Annual Report 2007
EMBO | EMBC annual report 2007 EUROPEAN MOLECULAR BIOLOGY ORGANIZATION | EUROPEAN MOLECULAR BIOLOGY CONFERENCE EMBO | EMBC table of contents introduction preface by Hermann Bujard, EMBO 4 preface by Tim Hunt and Christiane Nüsslein-Volhard, EMBO Council 6 preface by Marja Makarow and Isabella Beretta, EMBC 7 past & present timeline 10 brief history 11 EMBO | EMBC | EMBL aims 12 EMBO actions 2007 15 EMBC actions 2007 17 EMBO & EMBC programmes and activities fellowship programme 20 courses & workshops programme 21 young investigator programme 22 installation grants 23 science & society programme 24 electronic information programme 25 EMBO activities The EMBO Journal 28 EMBO reports 29 Molecular Systems Biology 30 journal subject categories 31 national science reviews 32 women in science 33 gold medal 34 award for communication in the life sciences 35 plenary lectures 36 communications 37 European Life Sciences Forum (ELSF) 38 ➔ 2 table of contents appendix EMBC delegates and advisers 42 EMBC scale of contributions 49 EMBO council members 2007 50 EMBO committee members & auditors 2007 51 EMBO council members 2008 52 EMBO committee members & auditors 2008 53 EMBO members elected in 2007 54 advisory editorial boards & senior editors 2007 64 long-term fellowship awards 2007 66 long-term fellowships: statistics 82 long-term fellowships 2007: geographical distribution 84 short-term fellowship awards 2007 86 short-term fellowships: statistics 104 short-term fellowships 2007: geographical distribution 106 young investigators 2007 108 installation -
Pdf UJ Faculty of Biology Folder
Faculty of Biology, Jagiellonian University in Kraków Gronostajowa 7, 30-387 Kraków, Poland Phone: +48 12 664 67 47 Fax: +48 12 664 69 08 e-mail: [email protected] www.wb.uj.edu.pl/en_GB Dean: dr hab. Małgorzata Kruczek email: [email protected] phone: +48 12 664 67 47 Vice-Dean for Student Affairs: dr hab. Anna Pecio email: [email protected] phone: +48 12 664 67 47 Vice-Dean for Financial Affairs: dr hab. Zuzanna Setkowicz-Janeczko Faculty of Biology email: [email protected] phone: +48 12 664 67 47 Editors: Agnieszka Rak, Małgorzata Kruczek, Ryszard Laskowski. Design: Łukasz Studnicki. Printed by: GO! Print, www.goprint.pl Authors of all photos agreed to a free publication. Kraków 2018 Mission organism system The mission of the Faculty of Biology is at one with that of the of organs population Contents Jagiellonian University, stemming from the best University traditions, and combining modern research and teaching with organ 04 The Dean’s Message an openness to the challenges of the future. The academic biocenoses 06 Milestones community of Faculty teachers, staff and students promotes research and teaching integrity to expand knowledge through 08 Structure science of the highest quality and the direct transfer of tissue Faculty & Staff 10 research achievements to the teaching process itself. This 12 Quick facts contributes to the sustainable socio-economic development of modern society by providing innovative solutions in education 14 Research and research. cell ECOSYSTEM 03 16 Departments & laboratories ecosystem 18 Subject of our research cell 26 Scientific organelles achievements Motto 34 International Get swept up in science bioma ce cooperation en molecule sci Get s t up in 38 Education wep atom 42 Student Achievements 46 Erasmus+ Programme Guideline 50 Student Activities Precise learning and exact teaching The academic community of the Faculty strives for excellence in research and teaching. -
Identification of the C-Terminal Activator Domain in Yeast Heat Shock Factor: Independent Control of Transient and Sustained Transcriptional Activity
The EMBO Journal vol.12 no.13 pp.5007-5018, 1993 Identification of the C-terminal activator domain in yeast heat shock factor: independent control of transient and sustained transcriptional activity Yuqing Chen1, Nickolai A.Barlev2,3, Introduction Ole Westergaard and Bent K.Jakobsen4 In response to hyperthermia, and certain other forms of Department of Molecular Biology, University of Aarhus, C.F.Mollers stress, cells transiently increase transcription from a small Alle, Building 130, DK-8000 Aarhus C, Denmark group of genes that encode a characteristic set of proteins, lPresent address: Department of Zoology, University of Western the heat shock proteins. The heat shock proteins exercise Ontario, London, Canada protective functions in the cell during stress, for instance 2Present address: Laboratory of Structural Genome Organization, Institute of Cytology, Tihkoretsky Avenue 4, 194064 St Petersburg, by renaturing or solubilizing denatured proteins (for reviews Russia see Lindquist, 1986; Pelham, 1986; Bienz and Pelham, 3Present address: Wistar Institute, Pennsylvania University, 1987). 3601 Spruce Street, Philadelphia, PA 19104-4268, USA Heat shock promoters contain a universal sequence 4Present address: Institute of Molecular Medicine, University of element that is necessary and sufficient for their Oxford, John Radcliffe Hospital, Headington, Oxford OX3 9DU, UK transcriptional activation (the heat shock element, HSE). This Communicated by H.R.B.Pelham was originally identified as a 14 bp sequence by deletion analysis of the Drosophila hsp7O promoter (Bienz and In yeast, heat shock factor (HSF) is a trimer that binds Pelham, 1982; Pelham, 1982; Pelham and Bienz, 1982). DNA constitutively but only supports high levels of Careful examination of the HSE has demonstrated that it can transcription upon heat shock. -
1 Appendix 6: Comparison of Year Abroad Partnerships with Our
Appendix 6: Comparison of year abroad partnerships with our national competitors Imperial College London’s current year abroad exchange links (data provided by Registry and reflects official exchange links for 2012-131) and their top 5 competitors’ (based on UCAS application data) exchange links are shown below. The data for competitors was confirmed either by a member of university staff (green) or obtained from their website (orange). Data was supplied/obtained between August and October 2012. Aeronautics Imperial College London France: École Centrale de Lyon, ENSICA – SupAero Germany: RWTH Aachen Singapore: National University of Singapore USA: University of California (Education Abroad Program) University of Cambridge France: École Centrale Paris Germany: Tech. University of Munich Singapore: National University of Singapore USA: Massachusetts Institute of Technology University of Oxford USA: Princeton University of Bristol Australia: University of Sydney Europe University of Southampton France: ESTACA, ENSICA – SupAero, DTUS – École Navale Brest Germany: University of Stuttgart Spain: Polytechnic University of Madrid Sweden: KTH University of Manchester Couldn’t find any evidence Bioengineering Imperial College London Australia: University of Melbourne France: Institut National Polytechnique de Grenoble Netherlands: TU Delft Singapore: National University of Singapore Switzerland: ETH Zurich USA: University of California (Education Abroad Program) University of Cambridge France: École Centrale Paris Germany: Tech. University of Munich -
The Functions of HSP70 in Normal Cells
Chapter 1 A General Description of HSPs, The Molecular Structure of HSP70 and The HSP70 Cycle Abstract Fifty years ago the accidental switch of a temperature knob on the incubator where Ferruccio Ritossa kept his fruit flies started a new era, the epoch of heat shock proteins (HSP). In 1986 H. Pelham was the first to suggest that HSPs bind to denatured protein aggregates, thereby restricting their aggregation and breaking them by using ATP as an energy source. Among all HSPs, the protein with a molecu- lar weight of 70 kDa was found to be the most common, drew the most attention and is consequently the HSP we know the most about. HSP70 contains three domains: the ATPase N-domain which hydrolyzes ATP; the substrate domain which binds pro- teins, and the C-domain that forms the “lid” for the substrate domain. Because of its three-domain structure, HSP70 forms a unified ATPase cycle coupled with connec- tion and disconnection of the client protein. The “team” of HSP70 cycle regulators includes HSP40, which delivers clients to HSP70 and stimulates ATP hydrolysis; Hip, which assists HSP70 in retaining the client, and Bag-1 and HspBP1, which accelerate the dissociation of ADP and the release of the client protein. Keywords HSP70 • Hip • Bag-1 • HspBP1 • The HSP70 cycle In this first chapter, I will begin by telling you the amazing story about how heat shock proteins (HSPs) were discovered, their general characteristics, molecular structure and their functional cycle. 1.1 About the Discovery of HSP, or How Drosophila Melanogaster was Accidentally “Heated” The name itself—“heat shock proteins”—results from the simple fact that HSPs were first discovered in cells exposed to elevated temperatures. -
Lecture Slides
(J. American Chemical Association, 78, 3458-3459) The Secondary Structure of Complementary RNA E. Peter Geiduschek, John W. Moohr, and Smauel B. Weiss, Proceedings of The National Academy of Sciences, 48, 1078-1086, 1962. R.H. DOI RH, and S. SPIEGELMAN Homology test between the nucleic acid of an RNA virus and the DNA in the host cell. Science 1962 Dec 14 1270-2. MONTAGNIER L, SANDERS FK. REPLICATIVE FORM OF ENCEPHALOMYOCARDITIS VIRUS RIBONUCLEIC ACID. Nature. 1963 Aug 17;199:664-7. (Science 143, 1034-1036, March 6, 1964) WARNER RC, SAMUELS HH, ABBOTT MT, KRAKOW JS. (1963) Ribonucleic acid polymerase of Azotobacter vinelandii, II. Formation of DNA- RNA hybrids with single-stranded DNA as primer. Proc Natl Acad Sci U S A. 49:533-8. Double Stranded RNA as a Specific Biological Effector December 8, 2006 Karolinska Institute, Stockholm, Sweden Viral interference (Interferon) effects in animals M. Hoskins (1935) A protective action of neurotropic against viscerotropic yellow fever virus in Macacus rhesus. American Journal of Tropical Medicine, 15, 675-680 G. Findlay and F. MacCallum (1937) An interference phenomenon in relation to yellow fever and other viruses. J. Path. Bact. 44, 405-424. A. Isaacs and J. Lindenmann (1957) Virus Interference. I. The Interferon Proc. Royal Soc. B 147, 268-273. Proceedings of the National Academy of Sciences, USA, Volume 58, Pages 782-789. 1967 Promoter Make transgenic worms geneX Antisense Transcripts Interference (Development 113:503 [1991]) geneX Promoter Make transgeneic worms geneX SENSE Transcripts Also Interference! (Development 113:503 [1991]) In Vitro Promoter Make RNA in vitro geneX Antisense RNA Inject worm gonad Interference! (Guo and Kemphues, 1995) In Vitro geneX Promoter Make RNA in vitro geneX SENSE RNA Inject worm gonad Also Interference! (Guo and Kemphues, 1995) Craig Mello's RNAi Workshop: 1997 C. -
Curriculum Vitae ANTHONY PAUL
Curriculum Vitae ANTHONY PAUL BRETSCHER Personal: Address: Department of Molecular Biology and Genetics Weill Institute for Cell and Molecular Biology Weill Hall Room 257 Cornell University Ithaca, NY 14853-7202 Telephone: 607-255-5713 Fax: 607-255-5961 e-mail: [email protected] Web site: http://www.mbg.cornell.edu/cals/mbg/faculty- staff/faculty/bretscher.cfm Date of Birth: September 8, 1950 Place of Birth: Harwell, Berkshire, England Citizenship: USA, United Kingdom and Switzerland Marital Status: Married Janice Sperbeck, 5.21.1983 Children: Heidi (b. Nov. 1, 1986), Erika (b. April 24, 1991) Home Address: 293 Ellis Hollow Creek Road, Ithaca, NY 14850 Education: 1971 BA University of Cambridge, UK. Experimental Physics 1974 MA University of Cambridge, UK 1974 PhD University of Leeds. Bacterial Genetics. Advisor: Dr. Simon Baumberg 1974-1977 EMBO Postdoctoral Fellow, Stanford University, CA Advisor: Dr. A. Dale Kaiser 1977-1980 Max Planck Society Fellow, Max Planck Institute for Biophysical Chemistry. Goettingen, Germany. Advisor: Dr. Klaus Weber. Academic Appointments: 1980-1981 Assistant Professor, Department of Cell Biology, Southwestern Medical School, Dallas, TX 1981-1999 Assistant (1981-1987), Associate (1987-1993), Professor (1993-1999) Section of Biochemistry, Molecular and Cell Biology, Cornell University 1999-present Professor of Cell Biology, Department of Molecular Biology and Genetics, Cornell University, NY 2007-present Member, Weill Institute for Cell and Molecular Biology Administrative Appointments: 2007-2011 Associate -
Making a Claim for a European Chemistry in Publication Programs
’Made in Europe for the World’: Making a Claim for a European Chemistry in Publication Programs. The Case of the Supramolecular Chemistry (1987-2005) Marianne Noel To cite this version: Marianne Noel. ’Made in Europe for the World’: Making a Claim for a European Chemistry in Publi- cation Programs. The Case of the Supramolecular Chemistry (1987-2005). Annals of the Fondazione Luigi Einaudi. An Interdisciplinary Journal of Economics, History and Political Science, Fondazione Luigi Einaudi npo, 2019, LIII, pp.2532 - 4969. 10.26331/1075. hal-02236211 HAL Id: hal-02236211 https://hal-upec-upem.archives-ouvertes.fr/hal-02236211 Submitted on 1 Aug 2019 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Annals of the Fondazione Luigi Einaudi Volume LIII, June 2019: 141-180 “MADE IN EUROPE FOR THE WORLD”: MAKING A CLAIM FOR A EUROPEAN CHEMISTRY IN PUBLICATION PROGRAMS. THE CASE OF THE SUPRAMOLECULAR CHEMISTRY (1987-2005) Marianne Noel *1 ABSTRACT The University of Strasbourg is the birthplace of a research specialty (supramo- lecular chemistry or SMC) which has grown considerably in the last 40 years and has had a significant scientific impact. The emergence of SMC was orchestrated to a large extent by Nobel laureate Jean-Marie Lehn, but a network of scientists, as well as the University and the Alsace Region, were also key players in this regard. -
What Makes a Great Lab?
COMMENT 1826 and acquired international renown. It attracted students from all over Europe and earned Liebig a reputation as a ‘chemist breeder’. His lab was an early example of the research and teaching establishments that SOURCE: LMB ARCHIVE LMB SOURCE: made the German universities the envy of many. It began as a single room, with a fire in the middle surrounded by work benches. Liebig’s work on the compositions of chemical substances and their reactions was outstand- ing, and his focus on agricultural, industrial and biological issues gave his research a highly topical flavour. He trained his protégés carefully, espe- cially in qualitative analysis. Students flocked to him, with the result that European chem- istry during the middle of the nineteenth century bore a distinctly Liebigian flavour as his students moved to influential positions elsewhere. The identification of state-of-the- art problems and the training of students to solve them characterize his achievements. Liebig’s initiative was widely adapted in the natural and biomedical sciences throughout Max Perutz, James Watson, John Kendrew and Francis Crick talk to a BBC presenter (centre) about the German university system. their Nobel prizes in 1962. Training was also part of the brief of physiologist Ivan Pavlov (1849–1936), but he brought his own organizational genius to bear on the ‘physiology factory’ that he masterminded in St Petersburg, Russia, What makes famously studying dogs. He adapted aspects of manufacturing to the production of sci- entific knowledge. Pavlov’s staff were among the first to specialize in different tasks: surgi- a great lab? cal, chemical, dog handling. -
Towards a Bright Future for Europe Fogale Nanotech • FOM/AMOLF • Fotona • France Telecom • Fraunhofer • Fundación Tekniker Gayton Photonics • G.L.I
A.L.S.I. • Acreo • AFOP • AIDO • Aixtron • ALBIS OPTOELECTRONICS • ALCATEL • Alcatel-Thales Aragon Photonics Labs • Argelas • ASI • ASML • AT-Fachverlag • Athens Information Technology Center AUDI • BAE Systems • Barco View • Belgrad University • Berliner Glas • BIAS • Bookham Brno University of Technology • Cambridge Display Technology • Cambridge University Carl Baasel Lasertechnik • Carl Zeiss • CEA • Cedova • CEIT • Cenamps • Centro Ricerche Fiat Chalmers University • CLIAS • CLP • CNOP • CNRS • Coherent Lambda Physik • Cristal Laser CrystalQ • Cypress Semiconductor • DaimlerChrysler • DELTA • DLR • Dow Corning Draegerwerk • Durham University • EADS • Eblana Photonics • ELI • EMVA - DATAPIXEL • EOS EPIC • EPS • Essilor • ESYCOM-ESIEE • EUCAR • Evotec Technologies • EXALOS Towards a Bright Future for Europe Fogale Nanotech • FOM/AMOLF • Fotona • France Telecom • Fraunhofer • Fundación Tekniker Gayton Photonics • G.L.I. Global Light Industries • GSI • Heidelberger Druckmaschinen Helmholtz Association • Heriot Watt University • Holografika • i2CAT Foundation • ICFO • IDETRA IESL • IIC - Industrial Investment Council • II-VI Belgium • II-VI Deutschland • ILC Bratislava • IMEC INETI • INFRAMET • Innovation Norway • INSA LYON • Instituto Superior Tecnico • IPA • IQE Group ISERD • Iskra • ISMB • IVEA • iXCore • JCP-Consult • JDS Uniphase • Jenoptik • KPRC • KTH Laser Diagnostic Instruments • LC - Organic Lighting Technologies • Leica • Liekki • LIMO • Linde Linköping University • LINOS • Liverpool University • Louis Pasteur University Strasbourg -
Heat Shock Proteins in Thermotolerance and Other Cellular Processes1
[CANCER RESEARCH 47, 5249-5255, October 15, 1987) Perspectivesin CancerResearch Heat Shock Proteins in Thermotolerance and Other Cellular Processes1 Stephen W. Carper,2 John J. Duffy, and Eugene W. Gerner Department of Radiation Oncology and Cancer Center, The University of Arizona Health Sciences Center, Tucson, Arizona S5724 Heat shock proteins are a unique set of highly conserved erentially synthesized (for recent reviews, see Refs. 7-13). The proteins induced by heat and other stresses. Their role in expression of hsps and the amino acid sequence of several hsps cellular responses to stress is currently unclear, due in part to are highly conserved throughout evolution, implying that they a variety of experimental findings that are apparently contra may have some universally important function(s). It is com dictory. The purpose of this review is to evaluate the evidence monly accepted that the function of the hsps is either to protect regarding the role of lisps-' in cellular responses to stress and to cells against subsequent heat stress or to enhance the ability of speculate on other possible physiological functions of these cells to recover from the toxic effects of heat or other stresses. unique proteins. This Perspectives article evaluates current evidence regarding Over the past 10 years, hyperthermia has gained increasing this possible role of hsps and considers alternate effects of hsps acceptance as a mode of cancer treatment, especially when used on cellular physiological responses. in combination with radiotherapy (1). In 1985, the United States Food and Drug Administration formally recognized hy perthermia therapy, generally meaning the elevation of tumor Operational Definitions of hsps and Thermotolerance temperatures to 40-45°C, as an effective form of treatment for certain types of cancer.