rost CV in German
Transcription
rost CV in German
Burkhard Rost CV BURKHARD ROST International address: TUM Informatics/Bioinformatics i12 Boltzmannstrasse 3 (Rm 01.09.052) 85748 Garching/München Germany Deutsche Addresse: Technische Universität München Institut für Informatik, Lehrstuhl für Bioinformatik / i12 Boltzmannstrasse 3 (Raum 01.09.052) 85748 Garching/München Email Web [email protected] www.rostlab.org rostlab.in.tum.de Tel Fax +49-89-289-17-811 +49-89-289-19-414 Photo: © Echert & Heddergott, TUM Unterlagen: CV Burkhard Rost TU München Inhalt: • Curriculum vitae • Veröffentlichungen printed Januar 10, 2011 1 Burkhard Rost CV 2 Burkhard Rost Tabulated CV Tabellarischer Lebenslauf (Curriculum Vitae) Datum: Name: Geschlecht: Ehestand: Staatsangehörigkeit: Geburtsort: Stelle: Adresse: Januar 10, 2011 Burkhard Rost Männlich Verheiratet, eine Tochter (geb. Dez. 2002) Deutsch Northeim, Niedersachsen, Germany Ordinarius Bioinformatik TUM, Department for Computer Sciences (Informatik) Unit for Bioinformatics & Computational Biology (i12) Boltzmannstrasse 3, 85748 Garching/Munich, Germany Tel.: +49-89-289-17-811 email: [email protected] (schnell), [email protected] (langsam) Ausbildung 1971-1980 1980-1982 Oberschule, Herzberg, Niedersachsen Wehrdienst in der Luftwaffe 1982-1985 10/1984 1985-1988 1985-1988 1986-1988 Thema: Betreuer: 11/1988 12/1988 Studium der Physik an der Justus-Liebig-Universität Gießen Vordiplom in Physik Studium der Physik an der Ruprecht-Karls-Universität Heidelberg Studium der Philosophie, Geschichte und Psychologie in Heidelberg Diplomarbeit am Institut für Theoretische Physik in Heidelberg 'Learning algorithms for spin-glass-like neural networks' Prof. Dr. Heinz Horner, Heidelberg Vordiplom in Philosophie und Geschichte, Heidelberg Diplom in Physik, Heidelberg 12/88-06/90 Thema: Forschungsstipendium 'Stiftung Volkswagenwerk', Theor. Physik, Heidelberg 'Theoretical analysis of the possibilities of seismic and acoustical sensor networks to verify arms control treaties for aircraft' Forschungsprojekte in den USA (Princeton, Washington DC, MIT) Doktorarbeit am EMBL, Heidelberg Schreiben der Doktorarbeit 'Neural networks and evolution - prediction of protein secondary structure' keiner ◊ Dr. rer. nat. (Doctor rerum naturarum) am Institut f. Theoretische Physik, Ruprecht-Karl Universität Heidelberg 07-10/89 1990-1993 07/1993 Thema: Betreuer: 07/1994 ◊ Die Ruprecht-Karl Universität gestattet, jedem mit entsprechenden Qualifikationen Doktorarbeiten ohne Betreuer einzureichen. Als ich von diesem Recht Gebrauch machte, informierte mich die Fakultät der Physik und Astronomie, dass dies seit über 60 Jahren niemand mehr getan hatte. 3 Burkhard Rost Tabulated CV Stellen 1986-1988 12/88-06/90 07-10/1989 07/90- 1992 07/93-12/94 01/95-12/95 01/96- 04/98 05/98-11/98 12/98- 05/00 07/2000-2010 2004-2010 2002-2010 07/2005-2010 2006-2010 2006-2010 seit 06/2009 Assistent am Institut für Theoretische Physik, Heidelberg Wissenschaftl. Mitarbeiter am Institut für Theoretische Physik, Heidelberg Gastwissenschaftler an Instituten in den USA (Princeton, Union of Concerned Scientists, MIT) Gastwissenschaftler am EMBL Heidelberg Wissenschaftlicher Mitarbeiter am EMBL Heidelberg Wissenschaftlicher Mitarbeiter am EBI Hinxton, Cambridge, England Wissenschaftlicher Mitarbeiter am EMBL Heidelberg Wissenschaftler bei LION Biosciences Heidelberg Professor (Assistant Prof.) an der Fakultät für Biochemie & Molekulare Biophysik, Columbia Universität, Neu York, USA Professor (Associate Prof.), Biochemie & Mol. Biophys., Columbia Außerordentlicher Professor, Fakultät. für Medizinische Bioinformatik, Columbia University Mitarbeiter Center of Computational Biology and Bioinformatics (C2B2) Feste Anstellung am Institut für Biochemie und Mol. Biophysik an der Columbia Universität Außerordentlicher Professor, Fakultät. für Pharmakologie, Columbia Univ. Mitarbeiter Irving Center of Cancer Research, Columbia Univ. Alexander von Humboldt Professor in der Fakultät für Informatik an der TU München, Fellow im IAS (Inst. for Advanced Studies), TUM Berufsorganisationen und Gesellschaften 1995-heute 1996-heute 2002-heute 2002-heute 2005-2006 2006 2007-heute Programmkomittee der ISMB (Intelligent Systems for Molecular Biology) Mitglied der ISCB (International Society for Computational Biology) Board of Directors ISCB (International Society for Computational Biology) Mitglied der NYAS (New York Academy of Sciences) Vizepräsident ISCB (International Soc. for Computational Biology) President Elect ISCB (International Society for Computational Biology) Präsident der ISCB (International Society for Computational Biology) Berufliche Erfahrungen 1992-heute 1995-heute 2001-heute 2005-2009 2006-heute 2006-heute 2009-heute Über 500 Gutachten für peer-reviewed Zeitschriften (inkl. Nature, Science, PNAS, Cell, EMBO J) Über 50 Gutachten für Anträge von Wissenschaftlern und Instituten (Österreich, Kanada, Dänemark, England, Deutschland, Israel, Italien, Norwegen, Niederlande, Singapur, Spanien, Schweden, Schweiz, USA) Gutachter für Anträge von NIH, NSF, European Community (EC), Welcome Trust Associate Editor von PLoS Computational Biology Associate Editor von Bioinformatics Associate Editor von Proteins: Structure, Function, and Bioinformatics Deputy Editor von PLoS Computational Biology 4 Burkhard Rost 2005-heute 2006-heute 2007-heute 2001-2006 2002, 2005 2004-2006 2005-2006 2002-2007 1999-2005 2004-heute Tabulated CV Editorial Board von FASEB (Vertreter der ISCB) Editorial Board von Journal of Structural and Functional Genomics Editorial Board von Bioinformatics and Biology Insights Editorial Board von Journal of Medical Informatics Editor for ISMB (Intelligent Systems for Molecular Biology) Proceedings Editorial Board von Proteins: Structure, Function, and Bioinformatics Editorial Board von Bioinformatics Organisation der New York Computational Biology Society in der Neu York Academy of Sciences SAB von LION Biosciences, Heidelberg/Cambridge GB Mitgründer, CEO von BioSof, Delaware, USA Eingeladene Vorträge (138 in 20 Ländern) 12/1988 09/1989 10/1989 05/1990 09/1990 010/1990 London, England: Tagung zum Thema Rüstungskontrolle Washington, DC, USA: Union of Concerned Scientists Princeton, USA: Institute for Advanced Studies Prag, CSFR: Tagung zum Thema Rüstungskontrolleʻ Vienna, Österreich: Konferenz zum Thema Rüstungskontrolle Mosbach, Germany: Konferenz zum Thema Rüstungskontrolle 06/1992 07/1992 11/1992 Elba, Italien: Konferenz: Neuronale Netzwerke Turin, Italien: Konferenz: Protein Structure Prediction Nijmegen, Niederlande: EU-Konferenz Sequence Analysis 06/1993 11/1993 Rennes, France: Workshop Secondary Structure Prediction Kopenhagen, DK: Konferenz Protein Structure by Distance Analysis 01/1994 03/1994 04/1994 11/1994 11/1994 12/1994 Mauii, Hawaii, USA: HICCS Konferenz Bologna, Italien: Konferenz Protein Structures Kopenhagen, Dänemark: Mini-Symposium zum Thema Structure Prediction Bielefeld, Germany: University Kopenhagen, DK: Konferenz Protein Structure by Distance Analysis Asilomar, USA: CASP Konferenz (Critical Assessment of Structure Prediction, CASP1) 06/1995 06/1995 10/1995 10/1995 11/1995 Cambridge, England: ISMB'95 (Tutorium) Heidelberg, Germany: University Brixen, Italien: Tagung zum Thema Protein Structures IRBM Rom, Italien: Tagung Frontiers of protein structure prediction Paris, Frankreich: Tagung Protein Structures and Drug Design 06/1996 08/1996 10/1996 11/1996 12/1996 St. Louis, USA: ISMB'96 Madrid, Spanien: CNB Universität Heidelberg Kopenhagen, DK: Konferenz Protein Structure by Distance Analysis Neu York, USA: Columbia Universität 5 Burkhard Rost Tabulated CV 12/1996 Asilomar, USA: UCSF 01/1997 02/1997 02/1997 03/1997 03/1997 06/1997 06/1997 07/1997 07/1997 07/1997 09/1997 09/1997 10/1997 11/1997 11/1997 12/1997 12/1997 12/1997 12/1997 Univ. Jerusalem, Israel: UNESCO-Workshop Sequence Analysis Basel, Switzerland: CIBA-Geigy EBI Hinxton, England: Tagung Protein Structure Prediction Kopenhagen, Dänenmark: CBS Neu York, USA: Columbia Universität Berlin: Inst. für Theor. Biol. Chalkidiki, Griechenland: ISMB'97 (Tutorium) EBI Hinxton, England: EMBO Workshop Protein Sequence Analysis San Sebastian, Spanien: Tagung Proteins: integration of life's function Madrid, Spanien: CNB Skövde, Schweden: Konferenz Bio-Computing and Emergent Computation Wien, Österreich: Intern. Conference on Molecular Structural Biology IRBM Rom, Italien: Tagung Frontiers of protein structure prediction Stockholm, Schweden: Pharmacia & Upjohn Stockholm, Schweden: Karolinska Inst. Paris, Frankreich: Pasteur Inst. Toulouse, Frankreich: INRA Inst. Toulouse, Frankreich: Elf Sanofi Basel, CH: Symposium Bioinformatics: from Exp. to Biol. Knowledge 03/1998 05/1998 05/1998 06/1998 10/1998 10/1998 Marseille, Frankreich: Krebszentrum, INSERM/19CNRS Tallberg, Schweden: Konf. Annual meeting of Swedish Structural Biology Bad Honnef, Deutschland: Konf. Scientific Applications of Neural Nets Neu York, USA: Tagung im Genomzentrum, Columbia Univ. Cambridge, England: Newton Inst. Konf. Biomolecular Function and Evolution in the Context of the Genome Project EBI, England: Konf. ʻMethods for protein structureʼ 07/1999 08/1999 09/1999 10/1999 11/1999 Havanna, Kuba: CIGB EMBO Workshop Bioinformatics Cambridge, England: EBI Workshop Protein motifs and families Graz, Österreich: International Meeting of Austrian Society for Genetics Bologna, Italien: Tagung Protein sequence analysis in the genome era Atlanta, USA: Konf. In silico biology: sequence & structure & function 02/2000 02/2000 08/2000 08/2000 08/2000 10/2000 12/2000 Boston, USA: SGI Workshop New Technologies for Discovery Research New York Structural Biology Society Troy RPI, USA: Bioinformatics Workshop Madrid, Spanien: Human Genome Workshop Neu York Universität Heidelberg, Deutschland: LION's Bioinformatics 2000 Asilomar, USA: Eingeladener Sitzungsleiter des vierten Meetings ʻCritical assessment of structure prediction (CASP4)ʻ, zwei Präsentationen 03/2001 Madrid, Spanien: Workshop zum Thema Structural Genomics 6 Burkhard Rost Tabulated CV 03/2001 04/2001 05/2001 05/2001 07/2001 07/2001 09/2001 09/2001 CNB Madrid, Spanien Neu York, Rockefeller Universität Neu York, New York Structural Biology Society Neu York, Columbia Universität, Biologie TU Kopenhagen, Dänemark Heidelberg Universität, Deutschland Il Ciocco, Italien: NATO Sommerschule Bioinformatics (Vortrag & Dozent) IRBM Rom, Italien 01/2002 04/2002 04/2002 05/2002 06/2002 06/2002 07/2002 08/2002 08/2002 10/2002 11/2002 Keystone Symposium Structural Genomics, USA Madrid, Spanien: Tagung Bioinformatics and Computational Biology Basel, Schweiz: Vortrag im Bioczentrum Basel Erice, Italien: Vortrag in der Sommerschule ʻStrukturbiologieʻ San Diego, USA: 11th Annual Bioinformatics and Genome Research Rutgers Univ., USA: Northeast Structural Genomics Consortium Annual Symposium New York Computational Biology Society, New York Academy of Sciences Edmonton, Kanada: ISMB'2002 Havanna, Kuba: Bioinformatica-Habana Lausanne, Schweiz, Universität Lausanne Toronto, Kanada, Institute for Proteomics and Bioinformatics 02/2003 02/2003 02/2003 05/2003 10/2003 11/2003 11/2003 Neu York, Fordham Universität CABM, Rutgers Univ., Piscataway, USA Neu York, Manhattan College Neu York, City College Bethesda, NIH: Hauptredner auf dem Workshop Comparative modeling Bethesda, NIH: Workshop Target Selection in Structural Genomics Rutgers Univ., Piscataway, NJ 02/2004 06/2004 07/2004 07/2004 07/2004 07/2004 07/2004 11/2004 11/2004 Gordon Konferenz, Ventura CA: Structural, Functional & Evolutionary Genomics NESG Symposium, Arden House, Heriman, Neu York ETH Zürich, Schweiz EPFL Lausanne, Schweiz Tagung zum Thema Data Mining, Glasgow, Scotland Tagung zum Thema Genome Annotation, Glasgow, Scotland ISMB Review of field, Glasgow, Scotland Rom Universität, Italien International Conference on Structural Genomics (ICSG), Washington DC 09/2005 11/2005 12/2005 12/2005 Structural-Genomics-Tagung zum Thema Target Selection (Chicago) RCSB workshop zum Thema Homology Modeling (Rutgers) Structural-Genomics-Tagung zum Thema Target Selection (NIH/Bethesda) INRA, Univ. Evry, Paris, Frankreich 7 Burkhard Rost Tabulated CV 01/2006 02/2006 05/2006 06/2006 08/2006 Seminar an der Technischen Universität München, Deutschland Keystone Konferenz zum Thema Structural Genomics DIMACS Tagung Approaches to Predict Protein Function (Rutgers) NIH Tagung Target Selection for Structural Genomics (NIH/Bethesda) SWISS-PROT 20 years (Fortalezza, Brasilien) 01/2007 01/2007 07/2007 08/2007 04/2008 05/2008 06/2008 07/2008 12/2008 Hauptredner der 5th European Conf. for Comp. Biology (ECCB, Eilat, Israel) BIOSAPIENS Tagung zum Thema Protein Function Prediction (Eilat, Israel) SIG 3D (Wien, Österreich) Hauptredner auf InCoB - 6th International Conference on Bioinformatics (Hong Kong, China) NESG, Princeton Mohonk cBio Symposium, New Paltz Pasteur, Paris ISMB Student Council, Toronto, Kanada CASP8 Sardinien, Italien 03/2009 05/2009 06/2009 12/2009 AMIA, San Francisco, USA Humboldt Universität, Berlin, Deutschland ISMB/ECCB 2009, Stockholm, Schweden Bioinformatics of African Pathogens, Bamako, Mali 01/2010 03/2010 04/2010 04/2010 05/2010 05/2010 07/2010 07/2010 07/2010 09/2010 09/2010 10/2010 11/2010 11/2010 Ringberg Tagung (Academia meets industry), Tegernsee, Deutschland ISCB-Latin America, Montevideo, Uruguay IAS Retreat, Starnberger See, Deutschland Machine Learning, Schloss Ringberg, Tegernsee, Deutschland Tag der Wissenschaft/Kirchentag, Garching, Deutschland Univ. Bayreuth, Deutschland Max-Planck Martinsried, Deutschland ISMB Boston, USA New York: City College, USA Optimization, Machine Learning and Bioinformatics, Erice, Italien ECCB Ghent, Belgien UCSD, San Diego, USA Salzburg, Österreich Biozentrum, Basel, Schweiz Organisation von Internationalen Wissenschaftlichen Tagungen (37) 09/1990 06/1995 07/1996 Mitveranstalter von The Second Workshop on Verification of Arms Reductions, 3-5 Sep. 1990, Wien, Österreich Programmkomittee der 3. ISMB (Intelligent Systems for Molecular Biology), Cambridge, England Programmkomittee der 4. ISMB, Halkidiki, Griechenland 8 Burkhard Rost 02/1997 07/1997 07/1998 08/1999 08/1999 10/1999 07/2000 12/2000 03/2001 03/2001 07/2001 02/2002 06/2002 08/2002 06/2003 11/2003 06/2003 12/2004 06/2005 12/2005 05/2006 06/2006 12/2006 07/2007 Tabulated CV Veranstalter des Workshops 'Methods for protein structure prediction progress and limitations' für Pharmaunternehmen, 10-11 Feb., 1997, EBI Hinxton-Cambridge, England Programmkomittee der 5. ISMB, St. Louis, USA Programmkomittee der 6. ISMB, Montreal, Kanada Veranstalter der Tagung Protein motifs and families in practice: Is protein function carved into sequence? Aug 12-13, 1999, EBI Hinxton-Cambridge, England Programmkomittee der 7. ISMB, Heidelberg, Deutschland Programmkomittee der 2. Bologna summer school on biotechnology: Protein sequence analysis in the genome era, Bologna, Italien Programmkomittee der 8. ISMB, San Diego, USA Mitveranstalter der CAFASP Veranstaltung während der CASP (Critical Assessment of Protein Structure Prediction) Tagung in Asilomar, CA Mitveranstalter von Bioinformatik Wettbewerben der Fa. LION Biosciences, Boston Mitveranstalter des Juan-March-Workshops zum Thema ʻStructural Genomicsʼ in Madrid, Spanien Programmkomittee der 9. ISMB, Copenhagen, Dänemark Programmkomittee des 3. "International Meeting on Membrane proteins” in Bologna, Italien Programmkomittee des Meetings zum Thema ʻComputational Biologyʼ, Manchester, England Mitveranstalter des 10. internationalen Meetings zum Thema 'Intelligent Systems in Molecular Biology' in Edmonton, Kanada (1500 Teilnehmer; die wichtigste Tagung für Bioinformatiker) Wissenschaftlicher Beirat, Editor und Programmkomittee der 11. ISMB 2003 in Brisbane, Australien Mitorganisation des NIH Workshops Target selection for structural genomics Wissenschaftlicher Beirat, Editor und Programmkomittee der 12. ISMB 2004 in Glasgow, Schottland (>2,200 Teilnehmer) Mitorganisation des Meetings ʻCritical Assessment of protein Structure Predictionʼ (CASP6) in Italien (das wichtigste Meeting zum Thema ʻstructure predictionʼ) Co-Vorsitzender Programmkomittee, Mitglied des wissenschaftlichen Beirats und Editor der 13. ISMB 2005 in Detroit, USA (> 2500 erwartete Teilnehmer) Mitorganisation des NIH-Workshops ʻTarget selection for structural genomics' Mitorganisation des CASP6.5 Workshops (New York) Mitorganisation des NIH-Workshops zum Thema ʻTarget selection and homology modelingʼ (Bethesda, NIH) Mitorganisation des Meetings ʻCritical Assessment of protein Structure Predictionʼ (CASP7) in Asilomar, CA (das wichtigste Meeting zum Thema ʻStructure Predictionʼ) ISMB/ECCB Wien: Co-Vorsitzender des 15. International Meeting on Intelligent Systems in Molecular Biology (ISMB) und der Fifth European 9 Burkhard Rost 07/2008 12/2008 07/2009 12/2009 03/2010 07/2010 07/2011 07/2011 03/2011 03/2012 Tabulated CV Conference of Computational Biology (ECCB) in Wien, Österreich (das wichtigste Meeting für Bioinformatiker), Chair of Highlight Track at ISMB/ECCB ISMB Toronto: Vorsitzender des 16. internationalen Meetings 'Intelligent Systems in Molecular Biology' (ISMB) in Toronto, Kanada (das wichtigste Meeting im Bereich der Bioinformatik in 2008), Chair of Highlights Track at ISMB 2008 Mitorganisation von CASP8 in Sardinia, Italien ISMB/ECCB Stockholm: Wissenschaftliches Organisationskomittee & Vorsitzender des Wissenschaftlichen Lenkungsausschusses Lenkungsausschuss der 1. ISCB-Africa/ASBCB, Bamako, Mali Lenkungsausschuss der 1. ISCB-Latin America, Montevideo, Uruguay ISMB 2010, Boston: Vorsitzender von Highlights Track & Vorsitzender des Wissenschaftlichen Lenkungsausschusses Organisationskomittee der SIG zum Thema Function Prediction, Wien 2011 ISMB/ECCB 2011, Wien, Österreich: Vorsitzender von Highlights Track & Vorsitzender des Wissenschaftlichen Lenkungsausschusses Lenkungsausschuss der 2. ISCB-Africa/ASBCB, Bamako, Mali Lenkungsausschuss der 2. ISCB-Latin America, Santiago, Chile Kollaborationen Kollaborationen über die letzten 5 Jahre (ausgenommen 2005 Science Publikation) Tom Acton (Rutgers Univ. USA), Alexei Adzhubei (Oslo Norway), Claus AF Andersen (Siena Biotech Italy), Rolf Apweiler (EBI Hinxton England), JM Aramini (Rutgers Univ. USA), Cheryl Arrowsmith (Toronto Univ Canada), David Baker (Univ. of Washington USA), Pierre Baldi (UCI Irvine USA), N Ben-Tal (Tel Aviv Univ. Israel), J Benach (Columbia Univ. USA), Helen Berman (PDB-Rutgers USA), Phil Bourne (UCSD USA), Søren Brunak (TU Lyngby Denmark), Stephen Bryant (NCBI USA), Stephen Burley (SGX Parmaceuticals USA), Piero Carninici (RIKEN Japan), Phil Carter (Columbia Univ. USA), CP Chen (Columbia Univ. USA), Y Chiang (Rutgers USA), W Chiu (Baylor College Houston USA), B Cooper (Columbia Univ. USA), JR Cort (Rutgers Univ. USA), George DeTitta (Buffalo Univ. USA), Ronald Dunbrack (Inst. for Cancer Res. Philadelphia USA), N Ecols (Yale Univ. USA), Aled Edwards (Toronto Univ. Canada), Arne Elofsson (Stockholm Univ. Sweden), J Everett (Yale USA), Volker Eyrich (Schroedinger Inc. USA), Dani Fischer (Buffalo Univ. USA), Kryzsztof Fidelis (UC Davis USA), Andras Fiser (Albert Einstein New York USA), Paolo Frasconi (Univ. Firenze Italy), Joachim Frank (HMM Albany USA), Yoav Freund (UCSD USA), Rich Friesner (Columbia Univ. USA), Mark Gerstein (Yale Univ. USA), Mark Girvin (Albert Einstein New York USA), Janice Glasgow (Kingston Univ. Canada), Adam Godzik (BurnhamUCSD USA), Julian Gough (RIKEN Japan), Osvaldo Grana (CNB Madrid Spain), Eric Gouaux (Oregon Univ. USA), Hedi Hegyi (Columbia Univ. USA), Wayne Hendrickson (Columbia Univ. USA), Kim Henrick (EBI England), Bernard Heymann (NIAMS USA), Barry Honig (Columbia Univ. USA), Tim Hubbard (Sanger Inst. England), John Hunt (Columbia Univ. USA), Masayori Inouye (Rutgers Univ. USA), HV Jagadish (Ann Arbor USA), Andrzej Joachimiak (MSGC Argonne USA), David Jones (Univ. College London England), Igor Jurisica (Toronto Univ. Canada), Gail Kaiser (Columbia Univ. USA), Michael Kennedy 10 Burkhard Rost Tabulated CV (PNNL Richland USA), Andrew Kernytsky (Columbia Univ.), IYY Koh (Columbia Univ.), G Kornhaber (Yale Univ. USA), N Lan (Rutgers Univ. USA), Thomas Lengauer (MPI Saarbruekcen Germany), Michal Linial (Hebrew Univ. Jerusalem Israel), Jinfeng Liu (Columbia Univ. USA), James Love (New York Structur Biology Center-City College USA), Andrei Lupas (Max Planck Inst. Tuebingen Germany), MS Madhusudhan (UCSF USA), John Markley (Univ. Wisconsin-Madison USA), Robert M MacCallum (Stockholm Univ. Sweden), Roderick MacKinnon (Rockefeller Univ. USA), Filippo Mancia (Columbia Univ. USA), Richard Mann (Columbia Univ. USA), Hannah Margalit (Hebrew Univ. Jerusalem Israel), Mark MartiRenom (UCSF San Francisco/Barcelona Spain), Ann McDermott (Columbia Univ. USA), Jill P Mesirov (Broad Inst. USA), Sven Mika (Columbia Univ. USA), Guy Montelione (Rutgers Univ. USA), John Moult (CARB Univ. Maryland USA), Diana Murray (Columbia Univ. USA), Rajesh Nair (FDA USA), E Narayanan (UCSF USA), Michael Nilges (Pasteur Paris France), Yanay Ofran (Bar-Ilan Univ. Israel), Christine Orengo (Univ. College London England), Arthur G Palmer (Columbia Univ. USA), Florencio Pazos (Madrid Spain), Israel Pecht (Weizmann Inst. Rehovot Israel), Gianlucca Pollastri (Dublin Ireland), Robert Powers (Nebraska Lincoln USA), Dariusz Przybylski (Columbia Univ. USA), Marco Punta (TUM Germany), Michael Rossmann (Purdue Univ. USA), Leszek Rychlewski (Warsaw Poland), Helen Saibil (Birkbeck College London England), Andrej Sali (UCSF San Francisco USA), Chris Sander (Whitehead Inst. Boston USA), Avner Schlessinger (UCSF USA), Reinhard Schneider (EMBL Heidelberg Germany), Peter Schuster (Vienna Univ. Austria), Torsten Schwede (Biozentrum Basel Switzerland), Larry Shapiro (Columbia Univ. USA), Daron Standley (PDB Japan), David States (Ann Arbor USA), Thomas Szyperski (Buffalo Univ. USA), Liang Tong (Columbia Univ. USA), Hepan Tan (Columbia Univ. USA), Dimitris Thanos (Athen Univ. Greece), Liang Tong (Columbia Univ.), Anna Tramontano (Univ. Rome Italy), Alfonso Valencia (CNB Madrid Spain), Gunnar von Heijne (Stockholm Univ. Sweden), Da-Neng Wang (New York Univ. USA), Kaz Wrzeszczynski (Cold Spring Harbor Labs USA), John Westbrook (PDB-Rutgers Univ. USA), Zeba Wunderlich (Rutgers Univ. USA), Ming Zhou (Columbia Univ. USA), Raphael Zidovetzki (Univ. of California Riverside USA). Universitätskomitees 06/2003-2010 11/2009-heute Qualifzierungsprüfung, Dept. Biochemie & Moleculare Biophysik, Columbia Prüfungsausschussvorsitzender für Bachelor/Master/Diplom Program für Bioinformatik in München (LMU, TUM, Helmholtz, MPI) Erfahrungen in der Lehre Kurse an Columbia & TUM (Rost) 1999-2004 2000-2003 2005-2008 2010-heute Betreuung von Doktoranden und Mitorganisieren der Klassenarbeit zum Thema ʻBioinformatikʻ im Kurs Biophysik unterrichtet von Ann McDermott, Chemie, Columbia (4 Kurse: 1999, 2001, 2002, 2003) Lehren an der Medizinischen Fakultät, Columbia; Kurs Eukaryotes I (3 Kurse: 2000, 2001, 2002, 2003) Semesterkurs Computational Biology II: Proteins: Sequence, Structure and Networks an der Columbia University (in Zusammenarbeit mit Dr. Vitkup) Zweisemestrige Vorlesung Protein Prediction 1+2 an der TUM (Jeder Vortrag 2x2 SWS + 2 SWS Übung) 11 Burkhard Rost 2010-heute 2010 Sommer 2010/11 Tabulated CV Oberseminar Bioinformatics & Computational Biology (jedes Semester, in Zusammenarbeit mit Dr. Stefan Kramer) Hauptseminar Bioinformatics & Computational Biology (Rost & Kramer Gruppe) Hauptseminar Bioinformatics & Computational Biology (Rost Gruppe) Kurse an TUM (Rost Gruppe) 2010 Sommer 2010 Sommer 2010/11 2010/11 2010/11 Praktikum Bioinformatik Protein Structure and Function Analysis (Andrea Schafferhans & Marco Punta) Praktikum Bioinformatik Bioinformatics Lab (Laszlo Kajan & Markus Schmidberger) Vorlesung Computational Systems Biology (Shaila Rössle & Arthur Dong) Seminar Presenting and Selling (Scientific Software) (Andrea Schafferhans) Seminar Munich R course (Markus Schmidberger) Kurse auf Meetings / Sommerkurse 06/1995 10/1995 03/1997 06/1997 07/1997 07/1997 10/1997 07/1999 10/1997 09/2001 08/2002 09/2010 Tutorium auf der ISMBʼ95 (International Conference on Intelligent Systems for Molecular Biology) in Cambridge, England Betreuung der post-docs auf dem Workshop Frontiers of protein structure prediction am IRBM in Rom, Italien Betreuung der post-docs auf dem Workshop an der CBS in Kopenhagen (Dänemark) Tutorium auf der ISMBʼ97 (International Conference on Intelligent Systems for Molecular Biology) in Chalkidiki, Griechenland Betreuung der pre- und post-docs auf dem Workshop (EMBO-course) Genome sequence analysis am EBI in Hinxton, England Lehrer während der Sommerschule Proteins: integration of life's function in San Sebastian, Spanien Betreuung der post-docs auf dem 2. Workshop Frontiers of protein structure prediction at the IRBM in Rom, Italien Betreuung der pre- und post-docs auf dem Workshop Bioinformatics im CIB in Havanna, Kuba Betreuung der post-docs auf dem Workshop Protein sequence analysis in the genome era an der University of Bologna, Italien Lehrer während der NATO-Sommerschule ʻBioinformatikʻ in Il Ciocco, Italien Betreuung der pre- und post-docs auf dem Workshop Bioinformatics im CIB in Havanna, Kuba Sommerkurs zum Thema Optimization, Machine Learning and Bioinformatics, Erice, Italien Andere Lehrveranstaltungen 1986-1988 1989-1990 1990 Organisation der Seminare über Theor. Physik, Heidelberg Univ., Deutschland Vortragsreihen zum Thema ʻRüstungskontrolleʻ (I), Heidelberg University Vortragsreihen zum Thema ʻRüstungskontrolleʻ (II), Heidelberg Univ. 12 Burkhard Rost 1986-1990 1991-1995 1992-1996 Tabulated CV Kurse zum Thema ʻPhysikʻ und ʻRüstungskontrolleʻ in außeruniversitären Schulen (Heidelberg, Mannheim, Frankfurt, Darmstadt) Halten von Vorträgen und Betreuung der Lehrveranstaltungen für Doktoranden im EMBL Heidelberg Vortragsreihe ʻProtein structure predictionʻ an der Heidelberger Univ. Studenten von meiner Gruppe, die den Doktortitel erlangt haben Name Yanay Ofran Jinfeng Liu Rajesh Nair Dariusz Przybylski Sven Mika Yana Bromberg Henry Bigelow Avner Schlessinger Andrew Kernytsky Kaz O Wrzeszczynski Ta-Tsen Soong Dissertation 02/2004 (2000) 02/2004 (1999) 11/2004 (1999) 11/2004 (1999) 07/2006 (2002) 11/2006 (2003) 04/2007 (2001) 09/2007 (2003) 05/2008 (2001) 02/2009 (2001) 06/2009 (2005) Affiliation für Dissertation Columbia: Medical Informatics /C2B2 Columbia: Pharmacology/C2B2 Columbia: Physics/C2B2 Columbia: Physics/C2B2 Columbia: Biochemistry/C2B2 Columbia: Medical Informatics/C2B2 Columbia: Biochemistry/C2B2 Columbia: Biochemistry/C2B2 Columbia: Biochemistry/C2B2 Columbia: Biochemistry/C2B2 Columbia: Medical Informatics/C2B2 Doktoranden in meiner Gruppe Name Christian Schaefer Tobias Hamp Esmeralda Vicedo Universität TUM Munich TUM Munich TUM Munich Zeitraum 2009-2012 2009-2012 2010-2012 Postdoktoranten in meiner Gruppe Name Affiliation Marco Punta TUM/IAS Yu-An (Arthur) Dong TUM: Bioinformatics Laszlo Kajan TUM: Bioinformatics Edda Kloppmann TUM: Bioinformatics Mark Offman TUM: Bioinformatics Shruti Rastogi Columbia: Biochemistry Shaila Roessle-Blank TUM: Bioinformatics Andrea Schafferhans-Fuhrmann TUM Markus Schmidberger TUM: Bioinformatics Mikhail Veshtort Columbia: Biochemistry In Gruppe seit 2002 2010/06 2008/04 2011/01 2010/07 2008/04 2010/07 2009/09 2010/01 2008/12 Technische Mitarbeiter in meiner Gruppe Name Timothy Karl Guy Yachdav Affiliation TUM: Bioinformatics Columbia: Biochemistry 13 In Gruppe seit 2010/05 2003 Burkhard Rost Tabulated CV Ehemalige Mitglieder meiner Gruppe Name Claus Andersen Claudia Bertonati Henry Bigelow Yana Bromberg Phil Carter Volker Eyrich Hedi Hegyi Andrew Kernytsky Ingrid Koh Jinfeng Liu Sven Mika Eyal Mozes Rajesh Nair Yanay Ofran Dariusz Przybylski Megan Restuccia Avner Schlessinger Ta-Tsen Soong Kaz O Wrzeszczynski Zeitraum 2001-2002 2004-2006 2001-2007 2003-2009 2002-2004 1999-2005 2002-2004 2001-2008/10 2003-2006 1999-2007 2002-2006 2005-2008 1999-2008/08 2000-2007 1999-2007 2002-2005 2003-2008 2005-2009 2001-2009 Gegenwärtige Anstellung Sr. Analyst, Siena Biotech., Italy Staff, Univ. of Rome, Italy Postdoc, Columbia Univ., New York, NY Assistant Professor, Rutgers Univ., NJ Univ. College, London Sr. Analyst, Schroedinger Inc., New York, NY Staff, Budapest Univ., Italy Research Scientist, BROAD Inst. MIT, MA Hongkong Senior Research Scientist, Genentech, CA Programmer, eSpeed Inc., New York, NY Staff, Columbia Univ. Biology, NY FDA (Federal Drag Agency), Bethesda, MD Faculty, Bar-Ilan University, Israel Senior Research Scientist, BROAD Inst. MIT, MA Manager, Morgan & Stanley, New York, NY Postdoc, UCSF, San Francisco, CA Postdoc, Cornell Medical School, New York, NY Postdoc, Cold Spring Harbor Laboratories, NY Dissertations Ausschuss Name Yuling An Chen Peter Chien Murat Cokol Chuck Duarte Volker Eyrich Marina Gimpelev Cathy S Gunther Samuel K Handelman David Pincus Erroll Rueckert Trevor Siggers Cinque Soto Hepan Tan Christopher Tang Bahar Taneri Oleg Trott Yun Zhang Universität: Fakultät Columbia: Chemistry Columbia: MD,PhD CU: Biomedical Informatics Columbia: Biochemistry Columbia: Chemistry Columbia: Biochemistry Rockefeller University Columbia: Biology Columbia: Chemistry Columbia: Integrated Columbia: Biochemistry Columbia: Biochemistry Columbia: Biochemistry Columbia: Biochemistry Rockefeller University Columbia: Biochemistry Columbia: Biology Datum 07/2002 12/2005 05/2006 09/2002 07/2001 06/2004 11/2002 2008 09/2004 2009 11/2005 09/2007 02/2006 06/2007 04/2005 06/2004 10/2001 Bachelor/Master Studenten Name Michael Menden University: Department TUM: Informatik 14 Period 2010-2011 Gruppe Rich Friesner Barry Honig Andrej Rzhetsky Ann-Marie Pyle Rich Friesner Barry Honig Terry Gaasterland John Hunt Rich Friesner Richard Axel Barry Honig Barry Honig Wayne Hendrickson Barry Honig Terry Gaasterland Arthur Palmer Marti Chalfie Burkhard Rost Tabulated CV Rotation Studenten Name Murat Cokol Trevor Siggers Hong Yu Hepan Tan Enrique Tadique Henry Bigelow Chen Peter Chien Seth Gale Andrew Kernytsky Avner Schlessinger Anthony J DeCostanzo Roman Trakhtenberg Shoshana L Posy Shameek Biswas Gabor Halasz Andrew Kuziemko Peng Liu Ta-tsen Soong Bahar Moezi Wei Lim Joe Bylund Universität: Fakultät Columbia: Biology Columbia: Biochemistry Columbia: Medical Inform. Columbia: Biochemistry Bronx Highschool Columbia: Biochemistry Columbia: MD-PhD Columbia: Undergraduate Columbia: Biochemistry Columbia: Biochemistry Columbia: Pharmacology Columbia: Medical Inform. Columbia: Integrated Columbia: Computer Sci. Columbia: Integrated Columbia: Biochemistry Columbia: Medical Inform. Columbia: Medical Inform. Columbia: Physics Columbia: Biomed. Engng. Columbia: Integrated 15 Zeitraum 03-05/2000 06-08/2000 06-08/2000 06-08/2000 06-08/2000 03-05/2001 06-08/2001 09-11/2001 06-08/2002 06-08/2002 09-11/2002 Winter 2002/2003 03-05/2003 06-08/2003 06-08/2003 09-11/2004 03-05/2005 03-05/2005 06-08/2005 06-08/2005 03-05/2008 Burkhard Rost Grants Drittmittel Laufende Mittel I. PI: Zeitraum : Agentur: Volumen: Thema: Burkhard Rost 12/01/06-11/30/11 NIH (R01) - USA $250 Tsd. (Gesamtkosten: $1,250,000) Comprehensive annotation of subcellular localization in entire proteomes II. PI: Zeitraum: Agentur: Volumen: Thema: Burkhard Rost 06/01/09-05/31/15 Alexander von Humboldt Stiftung 750 Tsd € Gesamt (5 Jahre): 4,250 K € Overhead (5 Jahre): 750 K € Alexander von Humboldt Professorship (AvH) III. PI: Role: Period: Agency: Volumen: Thema: Wayne Hendrickson Co-PI 07/01/10 to 06/30/15 NIH (U54 GM75026) $120 K Structural Genomics of Membrane Proteins (NYCOMPS) Grants completed I. Theoretical analysis of the possibilities of seismic and acoustical sensor networks to verify arms control treaties for aircraft PI: Burkhard Rost Period : 12/88-6/90 Agency: Foundation Volkswagenwerg, Germany Total Dir Costs: $15 K Summary: Funding for research project on arms control. II. PI: Period : Agency: Total Dir Costs: Summary: ISMB'2002 Burkhard Rost August 2002 NSF $40 K Travel support for young participants of the ISMB 2002 meeting III. PI: Period : Agency: ISMB'2002 Burkhard Rost August 2002 DOE 16 Burkhard Rost Grants Total Dir Costs: $35 K Summary: Travel support for young participants of the ISMB 2002 meeting IV. Center of excellence in bioinformatics PI: Barry Honig (Biochemistry, Columbia) Role: Co-PI Period: 09/01/01 to 08/31/03 Agency: NIH (5-P20-LM7276) Ann Dir Costs: $20,000 Summary: Fund to prepare grant proposal to begin a center of excellence. V. Structural genomics of eukaryotic model organisms PI: Gaetano T. Montelione (Rutgers University) Role: Co-PI Period: 10/01/00 to 31/10/05 Agency: NIH (P50 GM62413) Ann Dir Costs: $180,000 Total (5 years) $750,000 Overhead (4 years) $580,000 Summary: Goal of the pilot project in structural genomics (one of nine in the USA; of about 14 world-wide) was to develop high-throughput techniques for large-scale structure determination. This project combined over 20 groups from 12 research institutions in the USA, Canada and Israel. Our particular task was the development of techniques that rationalize the automatic target selection, i.e. prioritize which proteins to pursue experimentally. VI. Intruding into the midnight zone of protein sequence comparisons PI: Burkhard Rost Period: 05/01/01 to 04/30/05 Agency: NIH (R01 GM63029) Ann Dir Costs: $190,000 Total (4 years) $750,000 Overhead (4 years) $660,000 Summary: The 'twilight zone' of protein sequence comparison is the region in which sequence similarity does not suffice to conclude, e.g., structural similarity. The vast majority of all protein pairs of similar structure populate a 'midnight zone', i.e., their sequences differ too much for sequence-based inferences. We refined, extended, and specialized methods combining sequence alignment, structure prediction and functional information. VII. Ab initio prediction of sub-cellular localization PI: Burkhard Rost Period: 02/01/02 to 01/31/05 Agency: NSF (DBI-0131168) Ann Dir Costs: $157,000 Total (3 years) $470,000 Overhead (4 years) $240,000 Summary: The major goals of this project were to develop a system predicting the subcellular localization of a protein based on sequence alignments and signal peptide motifs. The ultimate objective was to combine a series of novel methods into a comprehensive system that we can use to automatically annotate entire proteomes. VIII. Improve predictions of structure and function by PredictProtein PI: Burkhard Rost Period: 05/01/03 – 04/30/07 Agency: NIH/NLM (R01 LM07329) Ann Dir Costs: $175,000 Total (4 years) $900,000 Overhead (4 years) $770,000 17 Burkhard Rost Grants Summary: The major objective was to improve the Internet prediction server PredictProtein. The specific aims were to (1) implement technical improvements, (2) and to systematically combine the results from various methods. In particular, we worked on the improvement of methods that identify transmembrane segments from sequence. IX. Predict putative protein-protein interface segments at low resolution PI: Burkhard Rost Period: 05/01/03 – 04/30/07 Agency: NIH (R01 GM64633-01) Ann Dir Costs: $200,000 Total (4 years) $800,000 Overhead (4 years) $680,000 Summary: We developed methods predicting interface segments, i.e. regions of residues consecutive in sequence that are in contact with other interface segments. Separate methods addressed internal and external interfaces. X. MAGNet: center for the analysis of multiscale genomic and cellular network PI: Andrea Califano (Bio-Medical Informatics, Columbia) Role: Project leader Period: 10/01/05 to 09/30/10 Agency: NIH (U54-GM072980) Ann Dir Costs: $220,000 Overhead $120,000 Summary: Grant proposal to begin a national center of excellence. Preliminarily, we proposed to build a center that provides software to other scientists. For the first two years, I acted as the coordinator of Core II proposals (biological applications of algorithms), and project leader for one of the seven main projects that proposed to integrate methods for the prediction of protein structure and function. The project was supposed to focus on the combination of related resources that already exist in the labs of various center members and on making these methods available through common interfaces. XI. Improve predictions of structure and function by PredictProtein PI: Burkhard Rost Period: 04/01/07 – 03/31/10 Agency: NIH/NLM (2 R01 LM07329) Effort: 5% Ann Dir Costs: $175,000 Total (4 years) $900,000 Overhead (4 years) $770,000 Summary: The major objective was to improve the Internet prediction server PredictProtein (PP). By 2008, this server had been used over 2 million times by over 30,000 researchers from 106 countries. The scientific solutions address two related tasks pertaining to protein function prediction. The first was to predict the effect of amino acid substitutions. We developed novel machine learning-based methods to distinguish between mutations that effect structure, or function, or have no apparent phenotype. The second major task was the identification of natively unstructured regions and their functional classification. Proteins that do not adopt regular structures in isolation are increasingly becoming an important research area; they may provide a key to the evolution of complexity from proka- to eukaryotes. We developed machine learning-based identifications of features specific to this important class of molecules. All new methods have been made available through PredictProtein. XII. PI: Submitted: Meeting for Critical Assessment of protein Structure Prediction (CASP) Burkhard Rost 12/15/03 18 Burkhard Rost Grants Period: 08/01/04 – 07/31/09 Agency: NIH (1-R13-GM072354-01) Effort: 5% Ann Dir Costs: $45,000 Total (5 years) $194,447 Summary: This grant funded 3 consecutive CASP meetings that have evolved into the major event in the structure prediction field. Note that this grant neither covered any salaries, nor any expenses for my group. 19 Burkhard Rost List of publications Publikationsliste ◊ Abschlussarbeiten A. B. B Rost (1988) Lernalgorithmen für verdünnte Spin-glas-artige Neuronale Netzwerke (Learning algorithms for spin-glass-like neural networks). Master Thesis, Inst. for Theoretical Physics, Heidelberg University, Germany. B Rost (1993) Neural networks and evolution - advanced prediction of protein secondary structure. Doctoral (PhD) Thesis, Dept. of Physics and Astronomy, Heidelberg University. Publikationen zum Thema ʻRüstungskontrolleʼ *1. *2. *3. 4. B Rost (1990) Report on conventional weapons. In 'Verification and arms control implications for European security', HG Brauch (ed.) Mosbach, Germany: AFES Press, 120-122. B Rost (1991) Sensor Networks for Verifying Disarmament of Aircraft. Bochum: UVB Universitätsverlag Brockmeyer, Book. B Rost (1992) Aircraft Monitoring by Automatic Sensor Networks. In 'Verification at Vienna. Monitoring Reductions of Conventional Armed Forces', J Altmann, H Graaf, PM Lewis, and P Markl (eds.). Philadelphia et al.: Gordon & Breach, 179-187. JLA Altmann, W Baus, A DeVolpi, B Gonsior, J Grin, J Hanousek, V Journé, W Kaiser, J Klinger, P Lewis, J Málek, J Matousek, M Pospisil, B Rost, V Rudajev, I Sabo & P Stein (1993) Ground Vibration, Acoustic Waves and Magnetic Disturbances Produced by Land Vehicles of the North-Atlantic Treaty Organization - Results of the 1989 Measurements of Baumholder, FRG. Bochum: UVB Universitätsverlag Brockmeyer. Publikationen zum Thema ʻComputational Biology and Bioinformaticsʼ 1992 (2) *5. B Rost & Sander (1992) Jury returns on structure prediction. Nature 360, 540. *6. B Rost & C Sander (1992) Exercising multi-layered networks on protein secondary structure. In 'Neural Networks: From Biology to High Energy Physics', O Benhar, S Brunak, P DelGiudice, and M Grandolfo (eds.) Elba, Italy: International Journal of Neural Systems, 209-220. 1993 (6) 7. T Meitinger, A Meindl, P Bork, B Rost, C Sander, M Haasemann & J Murken (1993) Molecular modelling of the Norrie disease protein predicts a cystine knot growth factor tertiary structure. Nature Genetics 5, 376-380. *8. B Rost & C Sander (1993) Prediction of protein secondary structure at better than 70% accuracy. J Mol Biol 232, 584-599. *9. B Rost & C Sander (1993) Improved prediction of protein secondary structure by use of sequence profiles and neural networks. PNAS 90, 7558-7562. ◊ Gruppenmitglieder in Fettdruck; Journale unterstrichen; Sterne markieren Publikationen, auf denen ich Erst- oder Letztautor bin; “peer-reviewed” Publikationen sind durch graue Linien an der linken Marge markiert. 20 Burkhard Rost *10. *11. *12. List of publications B Rost & C Sander (1993) Secondary structure prediction of all-helical proteins in two states. Protein Engineering 6, 831-836. B Rost, C Sander and R Schneider (1993) Progress in protein structure prediction? TIBS 18, 120-123. B Rost & G Vriend (1993) Neural networks in chemistry. CDA News 8, 24-27. 1994 (8) 13. L Holm, B Rost, C Sander, R Schneider & G Vriend (1994) Data based modeling of proteins. In 'Statistical Mechanics, Protein Structure, and Protein Substrate Interactions', Doniach, S (eds.) New York: Plenum Press, 277-296. *14. B Rost & C Sander (1994) Structure prediction of proteins - where are we now? Cur Opin Biotech 5, 372-380. *15. B Rost & C Sander (1994) 1D secondary structure prediction through evolutionary profiles. In 'Protein Structure by Distance Analysis', H Bohr and S Brunak (eds.) Amsterdam, Oxford, Washington: IOS Press, 257-276. *16. B Rost & C Sander (1994) Combining evolutionary information and neural networks to predict protein secondary structure. Proteins 19, 55-72. *17. B Rost & C Sander (1994) Conservation and prediction of solvent accessibility in protein families. Proteins 20, 216-226. *18. B Rost, C Sander & R Schneider (1994) Evolution and neural networks - protein secondary structure prediction above 71% accuracy. In '27th Hawaii International Conference on System Sciences', L Hunter (ed.) Wailea, Hawaii; Los Alamitos, CA: IEEE Society Press, 385-394. *19. B Rost, C Sander & R Schneider (1994) PHD - an automatic server for protein secondary structure prediction. CABIOS 10, 53-60. *20. B Rost, C Sander & R Schneider (1994) Redefining the goals of protein secondary structure prediction. J Mol Biol 235, 13-26. 1995 (5) *21. B Rost (1995) Fitting 1-D predictions into 3-D structures. In 'Protein folds: a distance based approach', H Bohr and S Brunak (eds.) Boca Raton, FL: CRC Press, 132-151. *22. B Rost (1995) TOPITS: Threading One-dimensional Predictions Into Threedimensional Structures. In 'Third International Conference on Intelligent Systems for Molecular Biology', C Rawlings, D Clark, R Altman, L Hunter, T Lengauer, and S Wodak (eds.) Cambridge, England: Menlo Park, CA: AAAI Press, 314-321. *23. B Rost, R Casadio, P Fariselli & C Sander (1995) Prediction of helical transmembrane segments at 95% accuracy. Protein Science 4, 521-533. *24. B Rost & C Sander (1995) Progress of 1D protein structure prediction at last. Proteins 23, 295-300. *25. B Rost & C Sander (1995) Protein structure prediction by neural networks. In 'The handbook of brain theory and neural networks', M Arbib (ed.) Cambridge, MA: Bradford Books/The MIT Press, 772-775. 21 Burkhard Rost List of publications 1996 (6) 26. T Hubbard, A Tramontano, G Barton, D Jones, M Sippl, A Valencia, A Lesk, J Moult, B Rost, C Sander, R Schneider, A Lahm, R Leplae, C Buta, M Eisenstein, O Fjellström, H Floeckner, JG Grossmann, J Hansen, M Helmer-Citterich, FS Joergensen, A Marchler-Bauer, J Osuna, J Park, A Reinhardt, L Ribas de Pouplana, A Rojo-Dominguez, V Saudek, J Sinclair, S Sturrock, C Venclovas & C Vinals (1996) Update on protein structure prediction: results of the 1995 IRBM workshop. Folding & Design 1, R55-R63. *27. B Rost (1996) PHD: predicting one-dimensional protein structure by profile-based neural networks. Methods in Enzymology 266, 525-539. *28. B Rost, R Casadio & P Fariselli (1996) Refining neural network predictions for helical transmembrane proteins by dynamic programming. In 'Fourth International Conference on Intelligent Systems for Molecular Biology', D States, P Agarwal, iratxeta T Gaasterland, L Hunter, and RF Smith (eds.) St. Louis, Menlo Park: AAAI Press, 192-200. *29. B Rost, R Casadio & P Fariselli (1996) Topology prediction for helical transmembrane proteins at 86% accuracy. Protein Science 5, 1704-1718. *30. B Rost & C Sander (1996) Bridging the protein sequence-structure gap by structure predictions. Ann Rev Biophys and Biomol Structure 25, 113-136. *31. B Rost & A Valencia (1996) Pitfalls of protein sequence analysis. Cur Op Biotech 7, 457-461. 1997 (6) *32. B Rost (1997) Learning from evolution to predict protein structure. In 'BCEC97: BioComputing and Emergent Computation', B Olsson, D Lundh, and A Narayanan (eds.) Skövde, Sweden: World Scientific, 87-101. *33. B Rost (1997) NN which predicts protein secondary structure. In 'Handbook of Neural Computation', E Fiesler and R Beale (eds.) New York: Oxford Univ. Press, G4.1. *34. B Rost (1997) Protein structures sustain evolutionary drift. Folding & Design 2, S19S24. *35. B Rost & SI O'Donoghue (1997) Sisyphus and prediction of protein structure. Bioinformatics 13, 345-356. *36. B Rost, R Schneider and C Sander (1997) Protein fold recognition by predictionbased threading. J Mol Biol 270, 471-480. *37. B Rost (1997) Better 1D predictions by experts with machines. Proteins Suppl. 1, 192-197. 1998 (4) *38. MA Andrade, SI O'Donoghue & B Rost (1998) Adaptation of protein surfaces to subcellular location. J Mol Biol 276, 517-525. *39. B Rost (1998) Marrying structure and genomics. Structure 6, 259-263. *40. B Rost (1998) Protein structure prediction in 1D, 2D, and 3D. In 'The Encyclopaedia of computational chemistry' P von Ragué Schleyer, NL Allinger, T Clark, J Gasteiger, PA Kollman, HF Schaefer III, and PR Schreiner (eds.) Chichester: Wiley, 2242-2255. 22 Burkhard Rost *41. List of publications R Zidovetzki, B Rost & I Pecht, (1998) The Role of transmembrane domains in the functions of B- and T-cell receptors. Immunology Lett 64, 97-107. 1999 (6) *42. B Rost (1999) Twilight zone of protein sequence alignments. Protein Engineering 12, 85-94. *43. A Zemla, C Venclovas, K Fidelis & B Rost (1999) A modified definition of SOV, a segment-based measure for protein secondary structure prediction assessment. Proteins 34, 220-223. *44. B Rost (1999) Evolution teaches neural networks. In ʻScientific applications of neural netsʼ, JW Clark, T Lindenau, and ML Ristig (eds.) Heidelberg: Springer, 207-223. 45. O Olmea, B Rost. & A Valencia (1999) Effective use of sequence correlation and conservation in fold recognition. J Mol Biol 293, 1221-1231. 46. D Fischer, C Barret, K Bryson, A Elofsson, A Godzik, D Jones, KJ Karplus, LA Kelley, RM MacCallum, K Pawowski, B Rost, L Rychlewski & M Sternberg (1999) CAFASP1: critical assessment of fully automated structure prediction methods. Proteins Suppl 3, 209-21. 47. F Pazos, B Rost & A Valencia (1999) A platform for integrating threading results with protein family analyses. Bioinformatics 15, 1062-1063. 2000 (2) *48. B Rost & C Sander (2000) Third generation prediction of secondary structure. Meth Mol Biol 143, 71-95. *49. M Cokol, R Nair & B Rost (2000) Finding nuclear localization signals. EMBO Reports 1, 411-415. 2001 (5) *50. B Rost (2001) Protein secondary structure prediction continues to rise. J Struct Biol 134, 204-218. *51. J Liu & B Rost (2001) Comparing function and structure between entire proteomes. Protein Science 10, 1970-1979. *52. V Eyrich, MA Marti-Renom, D Przybylski, A Fiser, F Pazos, A Valencia, A Sali & B Rost (2001) EVA: continuous automatic evaluation of protein structure prediction servers. Bioinformatics 17, 1242-1243. 53. D Fischer, A Elofsson, L Rychlewski, F Pazos, A Valencia, B Rost, AR Ortiz & RL Dunbrack (2001) CAFASP2: the second critical assessment of fully automated structure prediction methods. Proteins 45 (S5), 171-183. *54. B Rost & V Eyrich (2001) EVA: large-scale analysis of secondary structure prediction. Proteins. Proteins 45 (S5), 192-199. 2002 (15) *55. D Przybylski & B Rost (2002) Alignments grow, secondary structure prediction improves. Proteins 46, 195-205. 23 Burkhard Rost *56. 57. 58. *59. *60. *61. *62. *63. *64. *65. *66. *67. *68. *69. List of publications CAF Andersen, AG Palmer, S Brunak & B Rost (2002) Continuum secondary structure captures protein flexibility. Structure 10, 175-184. G Pollastri, D Przybylski, B Rost & P Baldi (2002) Improving the prediction of protein secondary structure in three and eight classes using recurrent neural networks and profiles. Proteins 47, 228-235. MA Marti-Renom, MS Madhusudhan, A Fiser, B Rost, A Sali (2002) Reliability of assessment of protein structure prediction methods. Structure 10, 435-440. B Rost (2002) Enzyme function less conserved than anticipated. J Mol Biol 318, 595-608. B Rost (2002) Did evolution leap to create the protein universe? Curr Opin Struct Biol 12, 409-416. CP Chen & B Rost (2002) State-of-the-art in membrane protein prediction. Appl Bioinformatics 1, 21-35. J Liu & B Rost (2002) Target space for structural genomics revisited. Bioinformatics 18, 922-933. B Rost, B Honig & A Valencia (2002) Bioinformatics in structural genomics. Bioinformatics (Editorial) 18, 897-898. J Glasgow & B Rost (2002) ISMB 2002. Bioinformatics (Editorial) 18 Suppl 1, S1 R Nair & B Rost (2002) Inferring sub-cellular localization through automated lexical analysis. Bioinformatics 18 Suppl 1 (ISMB Proceedings), S78-S86. J Liu, H Tan & B Rost (2002) Loopy proteins appear conserved in evolution. J Mol Biol 322, 53-64. CP Chen, A Kernytsky & B Rost (2002) Transmembrane helix predictions revisited. Protein Science 11, 2774-2791. R Nair & B Rost (2002) Sequence conserved for sub-cellular localization. Protein Science 11, 2836-2847. CP Chen & B Rost (2002) Long membrane helices and short loops predicted less accurately. Protein Science 11, 2766-2773. 2003 (24) *70. Y Ofran & B Rost (2003) Analysing six types of protein-protein interfaces. J Mol Biol 325, 377-387. *71. CAF Andersen & B Rost (2003) Automatic secondary structure assignment. Methods Biochem Anal 44, 341-363. *72. B Rost (2003) Prediction in 1D: secondary structure, membrane helices and accessibility. Methods Biochem Anal 44, 559-587. *73. P Carter, J Liu & B Rost (2003) PEP: Predictions for entire proteomes. Nucl Acids Res 31, 410-413. *74. R Nair, P Carter & B Rost (2003) NLSdb: database of nuclear localization signals. Nucl Acids Res 31, 397-399. *75. J Liu & B Rost (2003) Domains, motifs, and clusters in the protein universe. Curr Opin Chem Biol 7, 5-11. 24 Burkhard Rost *76. 77. *78. *79. *80. *81. *82. *83. *84. *85. *86. *87. *88. *89. *90. *91. 92. *93. List of publications B Rost (2003) Rising accuracy of protein secondary structure prediction. In 'Protein structure determination, analysis, and modeling for drug discovery', D Chasman (ed.) New York: Dekker, 207-249. R Zidovetzki, B Rost, Don L Armstrong & I Pecht (2003) Role of transmembrane domains in the functions of Fc receptors. J Biophysical Chemistry 15, 555-575. Y Ofran & B Rost (2003) Predict protein-protein interaction sites from local sequence information. FEBS Let 544, 236-239. B Rost (2003) Neural networks predict protein structure: hype or hit? In 'Artificial intelligence and heuristic methods in bioinformatics' P Frasconi and R Shamir (eds.) Amsterdam: IOS Press, 34-50. KO Wrzeszczynski & B Rost (2003) Cataloguing proteins in cell cycle control. In 'Cell cycle checkpoint control protocols' H Lieberman (ed.) Totowa: Humana Press, 219-233. B Rost, J Liu, D Przybylski, R Nair, H Bigelow, K Wrzeszczynski & Y Ofran (2003) Predicting protein structure through evolution. In 'Chemoinformatics - From Data to Knowledge' J Gasteiger & T Engel (eds.) New York: Wiley, 1789-1811. B Rost & J Liu (2003) The PredictProtein server. Nucl Acids Res 31, 3300-3304. J Liu & B Rost (2003) NORSp: predictions of long regions without regular secondary structure. Nucl Acids Res 31, 3833-3835. R Nair & B Rost (2003) LOC3D: annotate sub-cellular localization for protein structures. Nucl Acids Res 31, 3337-3340. S Mika & B Rost (2003) UniqueProt: creating representative protein sequence sets. Nucl Acids Res 31, 3789-3791. A Kernytsky & B Rost (2003) Static benchmarking of membrane helix predictions. Nucl Acids Res 31, 3642-3644. IYY Koh, VA Eyrich, MA Martí-Renom, D Przybylski, MS Madhusudhan, E Narayanan, O Graña, A Valencia, A Sali & B Rost (2003) EVA: evaluation of protein structure prediction servers. Nucl Acids Res 31, 3311-3315. VA Eyrich & B Rost (2003) META-PP: single interface to crucial prediction servers. Nucl Acids Res 31, 3308-3310. P Carter, CAF Andersen, B Rost (2003) DSSPcont: continuous secondary structure assignments for proteins, Nucl Acids Res 31, 3293-3295. R Nair & B Rost (2003) Better prediction of sub-cellular localization by combining evolutionary and structural information. Proteins 53, 917-930. VA Eyrich, IYY Koh, D Przybylski, O Graña, F Pazos, A Valencia & B Rost (2003) CAFASP3 in the spotlight of EVA. Proteins 53 S6, 548-560. JM Aramini, YJ Huang, JR Cort, S Goldsmith-Fischman, R Xiao, L Shih, CK Ho, J Liu, B Rost, B Honig, MA Kennedy, TB Acton > Montelione (2003) Solution NMR structure of the 30S ribosomal protein S28E from Pyrococcus horikoshii. Protein Science 12, 2823-2830. B Rost, J Liu, R Nair, K Wrzeszczynski & Y Ofran (2003) Automatic prediction of protein function. Cellular and Mol Life Sciences 60, 2637-2650. 25 Burkhard Rost List of publications 2004 (15) *94. R Nair & B Rost (2004) Annotating protein function through lexical analysis. AI Magazine 25, 45-56. 95. J Glasgow, I Jurisica & B Rost (2004) AI and Bioinformatics. AI Magazine 25, 7-8 (editorial). *96. J Liu & B Rost (2004) CHOP proteins into structural domain-like fragments. Proteins 55, 678-688. *97. H Bigelow, D Petrey, J Liu, D Przybylski & B Rost (2004) Predicting transmembrane beta-barrels in proteomes. Nucl Acids Res 32, 2566-2577. *98. KO Wrzeszczynski & B Rost (2004) Annotating proteins from Endoplasmic Reticulum and Golgi apparatus in eukaryotic proteomes. Cellular and Mol Life Sciences 61, 1341-1353. *99. B Rost, G Yachdav & J Liu (2004) The PredictProtein server. Nucl Acids Res, 32, W321-W326. *100. R Nair & B Rost (2004) LOCnet and LOCtarget: Sub-cellular localization for structural genomics targets. Nucl Acids Res 32, W517-W521. *101. J Liu & B Rost (2004) CHOP: parsing proteins into structural domains. Nucl Acids Res 32, W569-W571. *102. S Mika & B Rost (2004) NLProt: extracting protein names and sequences from papers. Nucl Acids Res 32, W634-W637. *103. J Liu, H Hegyi, TB Acton, GT Montelione & B Rost (2004) Automatic target selection for structural genomics on eukaryotes. Proteins 56, 188-200. 104. Z Wunderlich, TB Acton, J Liu, G Kornhaber, J Everett, P Carter, N Lan, N Echols, M Gerstein, B Rost, & GT Montelione (2004) The protein target list of the Northeast Structural Genomics Consortium. Proteins 56, 181-187. *105. J Liu & B Rost (2004) Sequence-based prediction of protein domains. Nucl Acids Res 32,3522-3530. *106. S Mika & B Rost (2004) Protein names precisely peeled off free text. Bioinformatics 20 Suppl 1, I241-I247. *107. D Przybylski & B Rost (2004) Improving fold recognition without folds. J Mol Biol 341, 255-269. 108. R Powers, TB Acton, Y Chiang, PK Rajan, JR Cort, MA Kennedy, J Liu, L Ma, B Rost & GT Montelione (2004) 1H, 13C and 15N assignments for the Archaeglobus fulgidis protein AF2095. J Biomol NMR 30, 107-108. 2005 (16) *109. Y Ofran & B Rost (2005) Predictive methods using protein sequence. In 'Bioinformatics' AD Baxevanis & F Ouelette (eds.) New York: Wiley, 197-222. *110. S Mika & B Rost (2005) NMPdb: database of nuclear matrix proteins. Nucl Acids Res 33, D160-D163. *111. B Rost (2005) How to use protein 1D structure predicted by PROFphd. In ʻThe Proteomics Protocols Handbookʼ JE Walker (ed.) Totowa: Humana Press, 875-901. 26 Burkhard Rost *112. *113. 114. 115. *116. *117. *118. 119. List of publications R Nair & B Rost (2005) Mimicking cellular sorting improves prediction of subcellular localization. J Mol Biol 348, 85-100. M Punta & B Rost (2005) Protein folding rates estimated from contact predictions. J Mol Biol 348, 507-512. J Benach, WC Edstrom, I Lee, K Das, B Cooper, R Xiao, J Liu, B Rost, TB Acton, GT Montelione & JF Hunt (2005) The 2.35 A structure of the TenA homolog from Pyrococcus furiosus supports an enzymatic function in thiamine metabolism. Acta Crystallogr D Biol Crystallogr 61, 589-598. O Grana, VA Eyrich, F Pazos, B Rost & A Valencia (2005) EVAcon: a protein contact prediction evaluation service. Nucleic Acids Res 33, W347-351. HV Jagadish, D States & B Rost (2005) ISMB 2005. Bioinformatics 21 Suppl 1, i1-i2. M Punta & B Rost (2005) PROFcon: novel prediction of long-range contacts. Bioinformatics 21, 2960-2968. A Schlessinger & B Rost (2005) Protein flexibility and rigidity predicted from sequence. Proteins 61, 115-126. The FANTOM Consortium, P Carninci, T Kasukawa, S Katayama, J Gough, MC Frith, N Maeda, R Oyama, T Ravasi, B Lenhard, C Wells, R Kodzius, K Shimokawa, VB Bajic, SE Brenner, S Batalov, ARR Forrest, M Zavolan, MJ Davis, LG Wilming, V Aidinis, JE Allen, A Ambesi-Impiombato, R Apweiler, RN Aturaliya, TL Bailey, M Bansal, L Baxter, KW Beisel, T Bersano, H Bono, AM Chalk, KP Chiu, V Choudhary, A Christoffels, DR Clutterbuck, ML Crowe, E Dalla, BP Dalrymple, B deBono, G DellaGatta, D diBernardo, T Down, P Engstrom, M Fagiolini, G Faulkner, CF Fletcher, T Fukushima, M Furuno, S Futaki, M Gariboldi, P Georgii-Hemming, TR Gingeras, T Gojobori, RE Green, S Gustincich, M Harbers, Y Hayashi, TK Hensch, N Hirokawa, D Hill, L Huminiecki, M Iacono, K Ikeo, A Iwama, T Ishikawa, M Jakt, A Kanapin, M Katoh, Y Kawasawa, J Kelso, H Kitamura, H Kitano, G Kollias, SPT Krishnan, A Kruger, SK Kummerfeld, IV Kurochkin, LF Lareau, D Lazarevic, L Lipovich, J Liu, S Liuni, S McWilliam, M MadanBabu, M Madera, L Marchionni, H Matsuda, S Matsuzawa, H Miki, F Mignone, S Miyake, K Morris, S Mottagui-Tabar, N Mulder, N Nakano, H Nakauchi, P Ng, R Nilsson, S Nishiguchi, S Nishikawa, F Nori, O Ohara, Y Okazaki, V Orlando, KC Pang, WJ Pavan, G Pavesi, G Pesole, N Petrovsky, S Piazza, J Reed, JF Reid, BZ Ring, M Ringwald, B Rost, Y Ruan, SL Salzberg, A Sandelin, C Schneider, C Schönbach, K Sekiguchi, CAM Semple, S Seno, L Sessa, Y Sheng, Y Shibata, H Shimada, K Shimada, D Silva, B Sinclair, S Sperling, E Stupka, K Sugiura, R Sultana, Y Takenaka, K Taki, K Tammoja, SL Tan, S Tang, MS Taylor, J Tegner, SA Teichmann, HR Ueda, E vanNimwegen, R Verardo, CL Wei, K Yagi, H Yamanishi, E Zabarovsky, S Zhu, A Zimmer, W Hide, C Bult, SM Grimmond, RD Teasdale, ET Liu, V Brusic, J Quackenbush, C Wahlestedt, JS Mattick, DA Hume, C Kai, D Sasaki, Y Tomaru, S Fukuda, M Kanamori-Katayama, M Suzuki, J Aoki, T Arakawa, J Iida, K Imamura, M Itoh, T Kato, H Kawaji, N Kawagashira, T Kawashima, M Kojima, S Kondo, H Konno, K Nakano, N Ninomiya, T Nishio, M Okada, C Plessy, K Shibata, T Shiraki, S Suzuki, M Tagami, K Waki, A Watahiki, Y OkamuraOho, H Suzuki, J Kawai and Y Hayashizaki (2005) The transcriptional landscape of the *120. 121. 122. mammalian genome. Science 309, 1559-1563. Y Ofran, M Punta, R Schneider & B Rost (2005) Beyond annotation transfer by homology: novel protein-function prediction methods that can assist drug discovery. Drug Disc Today 10, 1475-1482. R Powers, N Mirkovic, D Murray, S Goldsmith-Fischman, TB Acton, Y Chiang, R Paranji, JR Cort, JY Huang, MA Kennedy, J Liu, L Ma, B Rost & GT Montelione (2005) Solution structure of Archaeglobus fulgidis Peptidyl-tRNA hydrolase (Pth2) provides evidence for an extensive conserved family of Pth2 enzymes in archea, bacteria and eukaryotes. Protein Science 14,2849-2861. DA Snyder, Y Chen, NG Denissova, T Acton, JM Aramini, M Ciano, R Karlin, J Liu, P Manor, PA Rajan, P Rossi, GV Swapna, R Xiao, B Rost, J Hunt & GT Montelione 27 Burkhard Rost 123. 124. List of publications (2005) Comparisons of NMR spectral quality and success in crystallization demonstrate that NMR and X-ray crystallography are complementary methods for small protein structure determination. J Am Chem Soc 127, 16505-16511 J Moult, K Fidelis, T Hubbard, B Rost & A Tramontano (2006) Critical assessment of methods of protein structure prediction (CASP) - round VI. Proteins 61, 3-7. O Grana, D Baker, RM MacCallum, J Meiler, M Punta, B Rost, ML Tress & A Valencia (2006) CASP6 assessment of contact prediction. Proteins 61, 214-224. 2006 (8) *125. A Schlessinger, Y Ofran, G Yachdav & B Rost (2006) Epitome: Database of structure-inferred antigenic epitopes. Nucleic Acids Res 34, D777-D780. *126. J Liu, J Gough & B Rost (2006) Distinguishing protein-coding from non-coding RNA through support vector machines. PLoS Genetics 2 (4):e29, DOI: 10.1371/journal.pgen.0020029. *127. A Schlessinger, G Yachdav & B Rost (2006) PROFbval: predict flexible and rigid residues in proteins. Bioinformatics 22, 891-893. *128. S Mika & B Rost (2006) Protein–protein interactions more conserved within species than across species. PLoS Comp Biol 2, e79. *129. Y Ofran, G Yachdav, E Mozes, T Soong & B Rost (2006) Create and assess protein networks through molecular characteristics of individual proteins. Bioinformatics (ISMB Proceedings), 22: e402-e407. *130. H Bigelow & B Rost (2006) PROFtmb: A web server for predicting bacterial transmembrane beta barrel proteins. Nucleic Acids Res 34, W186-188. 131. A Passerini, M Punta, A Ceroni, B Rost & P Frasconi (2006) Identifying cysteines and histidines in transition metal binding sites by a two-stage support vector machines - neural networks approach. Proteins 22, 305-316. 132. HM Berman, SK Burley, W Chiu, A Sali, A Adzhubei, PE Bourne, SH Bryant, RL Dunbrack, Jr., K Fidelis, J Frank, A Godzik, K Henrick, A Joachimiak, B Heymann, D Jones, JL Markley, J Moult, GT Montelione, C Orengo, MG Rossmann, B Rost, H Saibil, T Schwede, DM Standley and JD Westbrook (2006) Outcome of a workshop on archiving structural models of biological macromolecules. Structure 14, 12111217. 2007 (13) *133. Y Ofran & B Rost (2007) ISIS: Interaction Sites Identified from Sequence. Bioinformatics (ECCBʼ2006), 23, e13-e16. *134. M Punta, LR Forrest, H Bigelow, A Kernytsky, J Liu & B Rost (2007) Membrane protein prediction methods. Methods, 41, 460-474. *135. D Przybylski & B Rost (2007) Consensus sequences improve PSI-BLAST through mimicking profile-profile alignments. Nucleic Acids Res 35, 2238-2246, doi:10.1093/nar/gkm107. 136. JM Aramini, YJ Huang, GV Swapna, JR Cort, PK Rajan, R Xiao, R Shastray, TB Acton, J Liu, B Rost, MA Kennedy > Montelione (2007) Solution NMR structure of 28 Burkhard Rost *137. *138. *139. *140. *141. *142. *143. *144. 145. List of publications Escherichia coli ytfP expands the structural coverage of the UPF0131 protein domain family. Proteins 68, 789-795. T Lengauer, BJ Morrison McKay & B Rost (2007) ISMB/ECCB 2007: The premier conference on computational biology. PLoS CB 3, e96. Y Bromberg & B Rost (2007) SNAP: predict effect of non-synonymous polymorphisms on function. Nucleic Acids Res 35, 3823-3835. Y Ofran & B Rost (2007) Protein-protein interaction hotspots carved into sequences. PLoS Computational Biology 3, e119. T Lengauer, B Rost & P Schuster (2007) ISMB/ECCB 2007. Bioinformatics (Editorial) 23, i1-i4. Y Ofran, V Mysore & B Rost (2007) Prediction of DNA-binding residues from sequence. Bioinformatics (ISMB Proceedings) 23, i347-353. A Schlessinger, J Liu & B Rost (2007) Natively unstructured loops differ from other loops. PLoS Comp Biol 3, e140. J Liu, GT Montelione & B Rost (2007) Novel leverage of structural genomics. Nature Biotech 25,849-851. A Schlessinger, M Punta & B Rost (2007) Natively unstructured regions in proteins identified from contact predictions. Bioinformatics 23, 2376-2384. J Moult, K Fidelis, A Kryshtafovych, B Rost, T Hubbard & A Tramontano (2007) Critical assessment of methods of protein structure prediction - Round VII. Proteins 69(S8), 3-9. 2008 (14) 146. KK Singarapu, R Xiao, T Acton, B Rost, GT Montelione & T Szyperski (2008) NMR structure of the peptidyl-tRNA hydrolase domain from Pseudomonas syringae expands the structural coverage of the hydrolysis domains of class 1 peptide chain release factors. Proteins 71, 1027-1031. 147. JM Aramini, S Sharma, YJ Huang, GV Swapna, CK Ho, K Shetty, K Cunningham, LC Ma, L Zhao, LA Owens, M Jiang, R Xiao, J Liu, MC Baran, TB Acton, B Rost & GT Montelione (2008) Solution NMR structure of the SOS response protein YnzC from Bacillus subtilis. Proteins 72, 526-530. 148. O Trott, K Siggers, B Rost & AG Palmer, 3rd (2008) Protein conformational flexibility prediction using machine learning. J Magn Reson 192, 37-47. *149. M Linial, JP Mesirov, BJ Morrison McKay & B Rost (2008) ISMB 2008 Toronto. PLoS Comp Biol 4, e1000094. *150. R Nair & B Rost (2008) Predicting protein subcellular localization using intelligent systems. Methods in Mol Biol 484, 435-463. *151. Y Bromberg & B Rost (2008) Comprehensive in silico mutagenesis highlights functionally important residues in proteins. Bioinformatics (ECCB Proceedings) 24, i207-i212. 152. M Lippi, A Passerini, M Punta, B Rost & P Frasconi (2008) MetalDetector: a web server for predicting metal binding sites and disulfide bridges in proteins from sequence. Bioinformatics 24, 2094-2095. 29 Burkhard Rost 153. *154. *155. *156. *157. *158. *159. List of publications JM Aramini, P Rossi, YJ Huang, L Zhao, M Jiang, M Maglaqui, R Xiao, J Locke, R Nair, B Rost, TB Acton, M Inouye & GT Montelione (2008) Solution NMR structure of the NlpC/P60 domain of lipoprotein Spr from Escherichia coli: structural evidence for a novel cysteine peptidase catalytic triad. Biochemistry 47, 9715-9717. D Przybylski & B Rost (2008) Powerful fusion: PSI-BLAST and consensus sequences. Proteins 24, 1987-1993. Y Ofran, A Schlessinger & B Rost (2008) Automated Identification of Complementarity Determining Regions (CDRs) reveals peculiar characteristics of CDRs and B cell epitopes. J Immunology 181, 6230-6235. Y Bromberg & B Rost (2008) SNAP predicts effect of mutations on protein function. Bioinformatics 24, 2397-2398. T-T Soong, KO Wrzeszczynski & B Rost (2008) Physical protein-protein interactions predicted from microarrays. Bioinformatics 15, 2608-2614. M Punta & B Rost (2008) Building a neural network for predicting protein features. In ʻApplication of Artificial Neural Networks to Chemistry and Biologyʼ D Livingston (ed.) Totowa: Humana Pres Methods Mol Biol 458, 203-230. D Przybylski & B Rost (2008) Predicting simplified features of proteins structure. In ʻBioinformatics – From Genomes to Therapiesʼ T Lengauer (ed.) Weinheim: WileyVCH, 261-295. 2009 (20) *160. KO Wrzeszczynski & B Rost (2009) Cell cycle kinases predicted from conserved biophysical properties. Proteins 74, 655-668. 161. P Rossi, JM Aramini, R Xiao, CX Chen, C Nwosu, LA Owens, M Maglaqui, R Nair, M Fischer, TB Acton, B Honig, B Rost & GT Montelione (2009) Structural elucidation of the Cys-His-Glu-Asn proteolytic relay in the secreted CHAP domain enzyme from the human pathogen Staphylococcus saprophyticus. Proteins 74, 515-519. 162. CA Galea, AA High, JC Obenauer, A Mishra, CG Park, M Punta, A Schlessinger, J Ma, B Rost, CA Slaughter and RW Kriwacki (2009) Large-Scale analysis of thermostable, mammalian proteins provides insights into the intrinsically disordered proteome. J Proteome Res 8, 211-226. 163. WN Price 2nd, Y Chen, SK Handelman, H Neely, P Manor, R Karlin, R Nair, J Liu, M Baran, J Everett, SN Tong, F Forouhar, SS Swaminathan, T Acton, R Xiao, JR Luft, A Lauricella, GT DeTitta, B Rost, GT Montelione and JF Hunt (2009) Understanding the physical properties that control protein crystallization by analysis of large-scale experimental data. Nature Biotech 27, 51-57. *164. A Schlessinger, M Punta, G Yachdav, L Kajan & B Rost (2009) Improved disorder prediction by combination of orthogonal approaches. PLoS ONE 4, doi:10.1371/journal.pone.0004433. *165. R Nair, J Liu, T-T Soong, TB Acton, J Everett, A Kouranov, A Fiser, A Godzik, L Jaroszewski, C Orengo, GT Montelione & B Rost (2009) Structural genomics is the largest contributor of novel structural leverage. J Structural Functional Genomics 10:181-191. *166. C Bertonati, M Punta, M Fischer, G Yachdav, F Forouhar, W Zhou, AP Kuzin, J Seetharaman, M Abashidze, TA Ramelot, MA Kennedy, JR Cort, A Belachew, JF 30 Burkhard Rost 167. *168. *169. 170. *171. 172. *173. 174. 175. *176. *177. *178. *179. List of publications Hunt, L Tong, GT Montelione & B Rost (2009) Structural genomics reveals EVE as a new ASCH/PUA-related domain. Proteins 75, 760-773. G Liu, F Forouhar, A Eletsky, HS Atreya, JM Aramini, R Xiao, YJ Huang, M Abashidze, J Seetharaman, J Liu, B Rost, T Acton, GT Montelione, JF Hunt and T Szyperski (2009) NMR and X-RAY structures of human E2-like ubiquitin-fold modifier conjugating enzyme 1 (UFC1) reveal structural and functional conservation in the metazoan UFM1-UBA5-UFC1 ubiquination pathway. J Struct Funct Genomics 10, 127-136. Y Bromberg, G Yachdav, Y Ofran, R Schneider & B Rost (2009) New in protein structure and function annotation: hotspots, single nucleotide polymorphisms and the Deep Web. Curr Opin Drug Discov Devel 12, 408-419. A Kernytsky & B Rost (2009) Using genetic algorithms to select most predictive protein features. Proteins 75, 75-88. BH Dessailly, R Nair, L Jaroszewski, JE Fajardo, A Kouranov, D Lee, A Fiser, A Godzik, B Rost & C Orengo (2009) PSI-2: Structural Genomics to Cover Protein Domain Family Space. Structure 17, 869-881. Y Bromberg & B Rost (2009) Correlating protein function and stability through the analysis of single amino acid substitutions. BMC Bioinformatics 10 Suppl 8, S8. J Moult, K Fidelis, A Kryshtafovych, B Rost & A Tramontano (2009) Critical assessment of methods of protein structure prediction-Round VIII. Proteins 77(S9), 1-4. H Bigelow & B Rost (2009) Online tools for predicting integral membrane proteins. Methods Mol Biol 528, 3-23 A Eletsky, DK Sukumaran, R Xiao, TB Acton, B Rost, GT Montelione & T Szyperski (2009) NMR structure of protein YvyC from Bacillus subtilis reveals unexpected structural similarity between two PFAM families. Proteins 76, 1037-1041. D Cozzetto, A Kryshtafovych, K Fidelis, J Moult, B Rost, & A Tramontano (2009) Evaluation of template-based models in CASP8 with standard measures. Proteins 77(S9), 18-28. Y Bromberg, J Overton, RL Leibel & B Rost (2009) In silico mutagenesis: a case study of the melanocortin 4 receptor. FASEB J 23, 3059-3069. M Punta, J Love, S Handelman, JF Hunt, L Shapiro, WA Hendrickson & B Rost (2009) Structural genomics target selection for the New York consortium on membrane protein structure. J Structural & Functional Genomics 10, 779-784. B Rost (2009) Prediction of protein structure in 1D – Secondary structure, membrane regions, and solvent accessibility. In ʻStructural Bioinformaticsʼ P Bourne & J Gu (eds.) Wiley, 679-714. CAF Andersen & B Rost (2009) Secondary structure assignment. In ʻStructural Bioinformaticsʼ P Bourne & J Gu (eds.) Wiley, 459-484. 2010 (8) *180. C Schaefer, A Schlessinger & B Rost (2010) Protein secondary structure appears to be robust under in silico evolution while protein disorder appears not to be. Bioionformatics 26, 625-631. 31 Burkhard Rost 181. 182. *183. 184. 185. 186. 187. List of publications KK Singarapu, JL Mills, R Xiao, T Acton, M Punta, M Fischer, B Honig, B Rost, GT Montelione & T Szyperski (2010) Solution NMR structures of proteins VPA0419 from Vibrio paraheemolyticus and yiiS from Shigella flexneri provide structural coverage for protein domain family PFAM04175. Proteins 78, 779-784. JM Aramini, JL Tubbs, S Kanugula, P Rossi, A Ertekin, M Maglaqui, K Hamilton, CT Ciccosanti, M Jiang, R Xiao, TT Soong, Rost B, TB Acton, JK Everett, AE Pegg, JA Tainer > Montelione (2010) Structural basis of O6-alkylguanine recognition by a bacterial alkyltransferase-like DNA repair protein. J Biol Chem 285, 13736-41. S Rastogi & B Rost (2010) Bioinformatics predictions of localization and targeting. Methods Mol Biol 619, 285-305. J Love, F Mancia, L Shapiro, M Punta, Rost B, M Girvin, DN Wang, M Zhou, JF Hunt, T Szyperski, E Gouaux, R MacKinnon, A McDermott, B Honig, M Inouye, G Montelione & W Hendrickson (2010) The New York Consortium on Membrane Protein Structure (NYCOMPS): a high-throughput platform for structural genomics of integral membrane proteins. J Struct Funct Genomics 11, 191-199. Y Tang, R Xiao, C Ciccosanti, H Janjua, DY Lee, JK Everett, GV Swapna, TB Acton, B Rost & GT Montelione (2010) Solution NMR structure of Lin0431 protein from Listeria innocua reveals high structural similarity with domain II of bacterial transcription antitermination protein NusG. Proteins 78, 2563-2568. G Wainreb, H Ashkenazy, Y Bromberg, A Starovolsky-Shitrit, T Halioglu, E Ruppin, KB Avraham, B Rost & N Ben-Tal (2010) MuD: an interactive web server for the prediction of non-neutral substitutions using protein structural data. NAR 38, W523W528. YH Chen, L Hu, M Punta, R Bruni, B Hillerich, B Kloss, B Rost , J Love, SA Siegelbaum & WA Hendrickson (2010) Homologue structure of the SLAC1 anion channel for closing stomata in leaves. Nature 28, 1074-1080. 2011 (2) *188. S Rastogi & B Rost (2011) LocDB: experimental annotations of localization for Homo sapiens and Arabidopsis thaliana. NAR 39, D230-234. 189. Y Yang, TA Ramelot, JR Cort, D Wang, C Ciccosanti, K Hamilton, R Nair, Rost B, TB Acton, R Xiao, JK Everett, GT Montelione & MA Kennedy (2011) Solution NMR structure of photosystem II reaction center protein Psb28 from Synechocystis sp. Strain PCC 6803. Proteins 79, 340-344. Preprints/Electronic material E1. E2. E3. B Rost: Protein fold recognition by merging 1D structure prediction and sequence alignments. Preprint; 1996; www.rostlab.org/papers/pre1996_topits/ B Rost & SI O'Donoghue: Sisyphus and protein structure prediction. Fifth International Conference on Intelligent Systems for Molecular Biology; Tutorial; 1997; www.rostlab.org/papers/pre1997_ismb/ B Rost, SI O'Donoghue and C Sander: Midnight zone of protein structure evolution. Preprint; 1998; www.rostlab.org/papers/pre1998_midnight/ 32 Burkhard Rost E4. E5. E6. E7. E8. E9. E10. List of publications B Rost: Short yeast ORFs: expressed protein or not? Preprint; 1999; www.rostlab.org/papers/1999_globe/ B Rost: Neural networks for protein structure prediction: hype or hit? Preprint; 1999; www.rostlab.org/papers/pre1999_tics/ B Rost and R Schneider: Pedestrian guide to analysing sequence databases. Preprint; 1999; www.rostlab.org/papers/1999_pedestrian/ R Nair and B Rost: Surface profiles predict sub-cellular localisation. Preprint; 2001; www.rostlab.org/papers/2001_loci_surface/ B Rost, P Baldi, G Barton, J Cuff, VA Eyrich, D Jones, K Karplus, R King, G Pollastri and D Przybylski: Simple jury predicts protein secondary structure best. Preprint; 2001; www.rostlab.org/papers/2001_sec_jury/ B Rost, J Liu, D Przybylski, R Nair, KO Wrzeszczynski, H Bigelow and Y Ofran: Predict protein structure and function through evolutionary information. Preprint; 2002; www.rostlab.org/papers/2002_rev_chem/ G Yachdav, Y Ofran, S Gilman, E Mozes, Y Yemini and B Rost: GeneTegrate: a platform for integrating biology. Demo, Short presentation and Poster at ISMB 2005, Detroit, USA. Webservices ($root = www.rostlab.org) W1. W2. W3. W4. W5. W6. W7. W8. W9. W10. W11. B Rost & J Liu: PredictProtein: Service for sequence analysis and protein structure prediction. Service (first internet server for protein structure prediction; one of the first in molecular biology); $root/predictprotein/ VA Eyrich & B Rost: META-PP: Single-page interface to validated sequence analysis services. Service; $root/predictprotein/submit_meta.html IYY Koh, VA Eyrich, MA Martí-Renom, D Przybylski, MS Madhusudhan, E Narayanan, O Graña, A Valencia, A Sali & B Rost: EVA: Evaluation of automatic protein structure prediction servers. Service; $root/eva/ R Nair & B Rost: PredictNLS: Prediction and analysis of nuclear localization signals. Service; $root/services/predictNLS/ P Carter, CAF Andersen & B Rost: DSSPcont: Continuous assignment of protein secondary structure. Service and database; URL: $root/services/DSSPcont/ S Mika & B Rost: UniqueProt: Creating sequence-unique protein databases. Service; $root/services/uniqueprot/ J Liu & B Rost: NORSp: Prediction of NOn-Regular Secondary Structure (NORS). Service; $root/services/NORSp/ A Kernytsky & B Rost: TMH-bench: Evaluate new methods for membrane helix structure prediction. Service; $root/services/tmh_benchmark/ P Carter, J Liu & B Rost: PEP: Predictions for entire proteomes. Database; $root/db/PEP/ R Nair & B Rost: NLSdb: Database of nuclear localization signals. Database; $root/db/NLSdb/ KO Wrzeszczynski & B Rost: CellCycleDB: Archive of proteins involved in cell cycle control. Database; $root/services/CellCycleDB/ 33 Burkhard Rost W12. W13. W14. W15. W16. W17. W18. W19. W20. W21. W22. W23. W24. W25. W26. W27. W28. W29. List of publications R Nair & B Rost: LOC3d: Database of predicted sub-cellular localization for eukaryotic PDB chains. Database; $root/db/LOC3d/ R Nair & B Rost: LOChom: Database of sub-cellular localization predictions based on sequence homology. Database; $root/db/LOChom/ S Mika & B Rost: NLProt: Extracting protein names and sequences from scientific papers. Service; $root/services/NLProt/ R Nair & B Rost: LOCtarget: Prediction of sub-cellular localization for targets in structural genomics. Database; $root/services/LOCtarget/ KO Wrzeszczynski & B Rost: ERGolgiDB: Archive of proteins from endoplasmic reticulum and Golgi apparatus. Database; $root/services/ERGolgiDB/ R Nair & B Rost: LOCnet: De novo prediction of sub-cellular localization and prediction. Service; $root/services/LOCnet/ H Bigelow & B Rost: PROFtmb: Predictions of transmembrane beta barrels. Service; $root/services/PROFtmb/ M Punta & B Rost: PROFcon08: Predictions of inter-residue contacts. Service; $root/services/PROFcon08/ J Liu & B Rost: CHOP: Chopping proteins into structural domains. Service; $root/services/CHOP/ A Schlessinger, Y Ofran, G Yachdav & B Rost: Epitome: Database of structureinferred antigenic epitopes. Database/Service; $root/services/epitome/ G Yachdav, Y Ofran, R Nair, T-T Soong, E Mozes & B Rost: PiNat: Protein Interaction Annotation Tool. Database/Service; $root/services/pinat/ G Yachdav, Y Ofran, & B Rost: ISIS: protein-protein Interaction Sites Identified from Sequence. Service; $root/services/isis/ G Yachdav, Y Ofran, & B Rost: DISIS: DNA-protein Interaction Sites Identified from Sequence. Service; $root/services/disis/ G Yachdav, D Przybylski & B Rost: ConBlast: Consensus Sequence PSI-BLAST. Database/Service; $root/services/conblast/ (under construction) G Yachdav, Yana Bromberg & B Rost: SNAP: Screening of Non-Acceptable nonsynonymous Polymorphisms. Service; $root/services/snap/ G Yachdav, A Schlessinger & B Rost: NORSnet: Prediction of disorder by identification of regions with NO Regular Secondary structure by neural networks. Service; $root/services/norsnet/ G Yachdav, A Schlessinger, M Punta & B Rost: Ucon: Prediction of disorder by identification of natively Unstructured regions through CONtacts. Service; $root/services/ucon/ (under construction) G Yachdav, A Schlessinger, M Punta, J Liu & B Rost: MD: Meta-Disorder prediction. Service; $root/services/md/ (under construction) Gesamtzahl der Publikationen Publikationstypen (einschl. in press): Peer-reviewed: 143 Erst-/Letztautor: 34 139 Burkhard Rost Original Peer-reviewed: Rezensionen: Buchkapitel: Tagungsberichte: Leitartikel: List of publications 130 29 27 12 8 Erstautor: Einzelautor: Letztautor: Bücher: 35 31 21 88 1 Burkhard Rost List of publications Liste meiner am häufigsten zitierten Publikationen (Nummerierung wie oben) Publikationen (Auszug i) ii Zitat Nr. 1) 2) 3) #8 #16 #27 Quelle: ISI Index, August 2010 Letzten 12 Monate Gesamt Impact-Faktor 1993 JMB 232, 584-599 1994 Proteins 19, 55-72 1996 Meth Enzymol 266, 525-539 69 16 33 2158 1180 966 126.9 73.8 69.0 135 12 8 21 59 91 10 48 18 650 558 532 418 409 384 340 322 300 162.5 34.9 35.5 29.9 37.2 64.0 20.0 32.2 18.8 4) #119 5) #19 6) #23 7) #29 8) #42 9) #99 10) #9 11) #49 12) #17 2005 Science 309 1559-1563 1994 CABIOS 10, 53-60 1995 Protein Science 4, 521-533 1996 Protein Science 5, 1704-18 1999 Prot Engng 12, 85-94 2004 NAR 32, W321-W326 (PP 2/Yachdav) 1993 PNAS 90, 7558-7562 2000 EMBO Reports 1, 411-5 1994 Proteins 20, 216-226 13) #57 14) #50 15) #20 16) #70 17) #36 18) #43 19) #59 20) #112 21) #7 22) #67 23) #51 24) #52 25) #82 2002 Proteins 47, 228-235 (pollastri) 2001 J Structural Biology 134, 204-18 1994 JMB 235, 13-26 2003 JMB 325, 377-87 (ofran/six) 1997 JMB 270, 471-80 1999 Proteins 34, 220-3 (SOV) 2002 JMB 318, 595-608 (enzyme) 2005 JMB 348, 85-100 (LOCtree) 1993 Nature Genetics 5, 376-80 2002 Prot Sci 11, 2774-91 - TMH revisited 2001 Protein Science 10, 1970-9 - Proteomes 2001 Bioinformatics 17, 1242-3 - EVA 2003 NAR 31, 3300-4 (PP 1=Liu & rost) 33 16 10 22 6 13 21 31 2 13 15 8 4 293 221 187 164 164 141 137 124 114 113 108 104 101 36.6 24.6 11.7 23.4 12.6 12.8 17.1 24.8 6.7 14.1 12.0 11.6 14.4 26) #66 27) #78 28) #45 29) #11 30) #55 31) #87 32) #5 33) #145 34) #30 35) #123 36) #34 37) #83 2002 JMB 322, 53-64 - Loopy/NORS 2003 FEBS Letters 544, 236-9 1999 JMB 293, 1221-1239 (Olmea) 1993 TIBS 18, 120-123 2002 Proteins 46, 197-205 - Alignments grow 2003 NAR 31, 3311-3315 (EVA) 1992 Nature 360, 540 2007 Proteins 69, 3-9 1996 Ann Rev 25, 113-36 2005 Moult intro Proteins 61, 3-7 1996 Fold & Des 2, S19-S24 2003 NAR 31, 3833-5 (NORSp) 8 15 18 0 5 8 0 82 0 9 6 9 92 91 91 89 88 84 84 82 77 76 76 75 11.5 13.0 8.3 5.2 11.0 12.0 4.7 27.3 5.5 15.2 5.4 10.7 i ii Nur Veröffentlichung mit ≥30 Zitaten oder einem Impakt ≥10 Nummer aus der Publikationsliste (hohe Zahlen deuten neuere Veröffentlichungen an) 36 Burkhard Rost Lfd.Nr. ii 38) #22 39) #93 40) #37 41) #97 42) #24 43) #74 44) #117 45) #39 46) #68 47) #85 48) #75 49) #56 50) #62 51) #118 52) #105 53) #138 54) #58 55) #35 56) #10 57) #113 58) #139 59) #128 60) #120 61) #103 62) #96 63) #90 64) #89 65) #54 66) #124 67) #107 89) #162 93) #163 96) #169 98) #171 Zitat List of publications Letzten 12 Monate 1995 ISMB 2003 CMLS 60, 2637-50 1998 JMB 276, 517-25 - andrade 2004 NAR 32, 2566-2577 (PROFtmb) 1995 Proteins 23, 295-300 2003 NAR 31, 397-99 (NLSdb) 2005 Bioinformatics 21 2960-2968 (PROFcon) 1998 Structure 6, 259-63 2002 Prot Sci 11, 2836-47 - localization 2003 NAR 31, 3789-91 (uniqueProt) 2003 Curr Opin Chem Biol 7, 5-11 2002 Structure 10, 175-184 2002 Bioinformatics 18, 922-933 2005 Proteins 61 115-126 - PROFbval 2004 NAR 32, 3522-3530 (CHOPnet) 2007 NAR 35, 3823-3835 2002 Structure 10, 435-440 (renom reliability) 1997 CABIOS/Bioinformatics 13, 345-56 1993 Protein Engineering 6, 831-836 2005 JMB 348 507-512 (folding rates) 2007 PLOS CB 3, 1169-1176 (hotspots) 2006 PLOS CB 2, 698-709 - Mika/Interactions 2005 Drug Disc Today 10 1475-1482 2004 Proteins 56, 188-200 (NESG) 2004 Proteins 55, 678-688 (CHOP) 2003 Proteins 53, 917-30 - localiation 2003 NAR 31, 3293-5 (DSSPcont) 2001 Proteins 45, 192-199 2005 Proteins 61, 214-224 (Grana/CASP6/cont) 2004 JMB 341, 255-269 (AGAPE) 2009 Nature Biotechnology 27, 51-57 2009 PLOS One 4 2009 Structure 17, 869-881 2009 Proteins 77, 1-4 iv Alle 186 Publikationen: iv 138 Erster/Letzter Autor (aufgelistete Papers) ii iii iv 0 21 6 14 0 0 13 0 6 6 3 7 0 13 3 42 3 1 41 11 22 12 6 4 3 4 5 5 31 3 13 12 11 10 Summe 14.315 12.069 Gesamt 73 iii 68 66 65 64 62 55 55 53 51 51 47 45 44 44 42 43 42 41 39 38 37 36 36 36 34 33 33 31 31 13 12 11 10 Impact-Faktor 12.2 9.7 5.5 10.8 4.3 8.9 11.0 4.6 6.6 7.3 7.3 5.9 5.6 8.8 7.3 14.0 5.4 3.2 2.4 7.8 12.7 9.3 7.2 6.0 6.0 4.9 4.7 3.7 6.2 5.2 13.0 12.0 11.0 10.0 Durchschnittl. Zitierungen 77 88 Nummer aus der Publikationsliste (hohe Zahlen deuten neuere Veröffentlichungen an) Zahlen von Feb. 2001, seitdem nicht mehr in ISI aufgeführt. Mittelwerte sind über ALLE Veröffentlichungen in der Publikationsliste berechnet; viele Veröffentlichungen sind nicht in ISI aufgeführt. 37 Burkhard Rost List of publications Bemerkung: dies resultiert in einem mittleren pro-Jahr Index (ueblicherweise als Impaktfaktor bekannt) von ~12 fuer all meine Veroeffentlichungen, die in ISI gelistet sind. Dies ist hoeher als der Impaktfaktor von einigen der renomiertesten Fachzeitschriften in der Molekularbiolgie (z.B. EMBO J and PNAS). Veroeffentlichung aus den letzten Jahren (nach 1999) haben einen niedrigeren Mittelwert, bleiben aber immer noch ueber 10, d.h. die Pseudo Fachzeitschrift „Rost seit 1999“ wuerde immer noch in den Top 100 der 6066 ISI Zeitschriften rangieren. In der Tat sind die meisten meiner Veroeffentlichungen wesentlich mehr zitiert als der die top 10% der Veroeffentlichungen in fast allen Zeitschriften, in denen ich veroeffentlicht habe. Der h-index (Herfindahl index/Hirsch Zahl) ist die Zahl von Veroeffentlichungen h die mehr als h-mal zitiert wurden. Mein h-index nach Google ist 58 (August 2010) and 48 nach ISI (August 2010). Der Unterschied resultiert im Wesentlichen daraus, dass ISI weder Proceedings noch Buchkapitel zählt, und ueberhaupt viele Zitate in modernen Medien von Wissenschaftlichen Arbeiten ignoriert. 38 Burkhard Rost List of publications Webservers und öffentliche Ressourcen Bitte beachten Sie, dass die folgenden Tools auf unserer Website veröffentlicht werden ◊: http://www.rostlab.org PredictProtein AGAPE* CellCycleDB CHOP/ CHOPnet* CLUP* ConBLAST* DISIS* DSSPcont* Epitome* ERGolgiDB EVA* GenTegrate* ISIS* LOCdb* LOCtree* MD* META-PP* NLProt* NLSdb* NORSnet* NORSp* First and most widely used internet server for protein structure prediction that currently combines over 20 methods developed by others (e.g. ASP, BLAST, ClustalX, COILS, CYSPRED, HMMer, MaxHom, ProDom, PROSITE, PSIBLAST, SEG, SIFT) and over 20 methods developed by us (marked by asterisk; e.g. PHD<sec|acc|htm|psi*>, TOPITS*, AGAPE*, CHOP|CHOPnet*, DISIS*, ISIS*, LOC*<hom|key|net>, MD*, PredictNLS*, PROF*<con08|acc|sec|tmb>, NORSnet*, NORSp*, SNAP*, Ucon*). Fold recognition without folds: Improved and generalized method for sequenceprofile and profile-profile comparisons using sequence and predicted 1D structure (secondary structure and accessibility). Database collecting and annotating proteins involved in cell-cycle control Method chopping proteins into structural domain-like fragments and database for 62 entirely sequence proteomes. Database with clusters of CHOP* fragments. Aligning proteins through consensus motifs – simple add-on to the popular BLAST/PSI-BLAST methods. Prediction of protein-DNA interactions. Server and database for continuous secondary structure assignment from PDB files. Database of structure-inferred antigenic epitopes. Archive of proteins from endoplasmic reticulum and Golgi apparatus. Server continuously evaluating structure prediction servers for: homology modeling (done by Sali group at UCSF), fold recognition, prediction of secondary structure, and prediction of inter-residue contacts (done by Valencia group in Madrid). Prediction of residues involved in external protein-protein interactions. Database with annotations of localization for all eukaryotic proteins in PDB (LOC3D*), all structural genomics targets (LOCtarget*), and entirely sequenced prokaryotic and eukaryotic proteomes (not yet completed). Combined system for the prediction of sub-cellular localization through homologytransfer (LOChom*), automated text analysis of SWISS-PROT keywords (LOCkey*), neural network-based (LOCnet*) and SVM-based predictions (LOCsvm*), and combinations of methods specialized on “shuttling sequences” (PredictNLS*, SignalP, ChloroP, ER_GolgiDB*). MetaDisorder prediction – method to predict natively unstructured/disordered regions through a combination of original methods, including PROFbval, NORSnet, Ucon, IUpred, DISOpred. Common interface that simplifies the access to a battery of high-quality public protein structure and function prediction servers. Automatic identification of protein names in scientific literature. Database of nuclear localization and DNA-binding motifs. Neural network based prediction of disordered/natively unstructured regions dominated by loops in the non-bound state. Prediction of long regions with no regular secondary structure (NORS, i.e. almost ◊ Alle mit Stern* markierten Tools sind im Rost Lab an der Columbia Univ. oder TUM entwickelt worden. 39 Burkhard Rost PEP* PiNat* PredictNLS* PROFacc* PROFcon08* PROFsec* PROFtmb* SNAP* TMH-bench* Ucon* UniqueProt* List of publications no helix or strand over at least 70 consecutive residues) and database with predictions for entire proteomes. Database with alignments and predictions for 62 entirely sequenced proteomes (interfaced by the Sequence-Retrieval-System SRS). Protein interaction annotation tool combining a lookup of experimental interactions with predictions and annotations of localization and from the GeneOntology Interactive assessment of selectivity and sensitivity for nuclear localization signals. Improved prediction of solvent accessibility. Prediction of inter-residue contacts (preliminary version). Improved prediction of secondary structure. Prediction of beta-membrane proteins. Prediction of effects on protein function of SNPs (non-synonymous single nucleotide polymorphism) Static benchmark to test novel methods or propensity scales (hydrophobicity indices) for membrane helix prediction. Prediction of natively unstructured (disordered) regions through the prediction of inter-residue contacts. Creates representative subsets from a limited set of protein sequences. 40