DOCSLIB.ORG

SPEAKER BIOS CAREER TRANSITIONING EPFL, SV Building, Lausanne 7 October 2015

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
SPEAKER BIOS CAREER TRANSITIONING EPFL, SV Building, Lausanne 7 October 2015 SPEAKER BIOS CAREER TRANSITIONING EPFL, SV Building, Lausanne 7 October 2015 1. MELANIE BLOKESCH: Tenure-track Assistant Professor, EPFL Melanie Blokesch holds a PhD degree from the Ludwig-Maximilians-University in Munich (Germany). From 2005 to 2009 she worked as a postdoctoral fellow at the Division of Infectious Diseases and Geographic Medicine and the Department of Microbiology & Immunology at Stanford University (USA). In 2009 Dr. Blokesch was appointed as tenure-track assistant professor within the School of Life Sciences at the Swiss Federal Institute of Technology in Lausanne (EPFL), Switzerland, where she is currently the head of the Laboratory of Molecular Microbiology. The research of the Blokesch laboratory primarily focuses on how bacteria evolve in natural environments to emerge as human pathogens and how horizontal gene transfer contributes to such pathogen emergence. The model organism for these studies is the causative agent of the devastating diarrheal disease cholera. The methodologies used in Dr. Blokesch’s group include microbiology, bacterial genetics and genomics, basic biochemistry, and cellular biology-based microscopy imaging. 2. TOBY ENBERG: Executive VP, Coulter Partners Toby has over 19 years of experience across a range of industries, having worked both as a management consultant and in leadership roles within multinational corporations, including Reuters, Novartis and a privately-held medical technology company. Toby has been working in executive search for the past 4 years, specializing in international, senior roles for the life sciences industry, across the value chain. A Swedish and Swiss national, he sees himself as a global citizen and has a passion for working with people across cultures and regions. Toby has a BCom from the University of Edinburgh, Scotland, and speaks English, French and Swedish. He has his home base in the Nyon region, but works across the whole of Switzerland and Europe for Pharma, Biotech, Med Tech and Life-sciences clients. 3. ROLF ILLUM-ENGSIG: Head HR, Nestlé Institute of Health Sciences Rolf Illum-Engsig is head of HR for Nestlé Research and Development, located at the Nestlé Institute of Health Sciences since 2014. He joined Nestlé Nespresso Globally Managed Business in 2008 and transferred to Nestlé Research and Development in Germany in 2011. He holds a Doctorate of Business Administration and Master of Science in Economics degree 4. CAROLYN LUTZ: Founder and Manager Partner, Lutz Partners Carolyn Lutz has almost twenty years of Swiss-based executive search experience with pan-European and global assignments for multinational companies. A generalist firm, areas of particular expertise include industrial, consumer and luxury products, life sciences, in particular medical devices. After beginning her search career in Geneva with Korn/Ferry, Carolyn was the founding Partner of the Geneva office of Heidrick & Struggles. Prior to becoming a search consultant, she was in marketing with Procter & Gamble in Geneva and with La Prairie in Zurich as Director of International. Just after college, Carolyn served five years in the United States Marine Corps, as an FAA-certified Air Traffic Control Officer and as aide-de-camp to the Commanding General, 1st Marine Aircraft Wing in Asia, earning the rank of Captain. She earned a B.Sci. in psychology from Vassar College and was a fellow at the Lauder Institute of International Management, combining an MBA from Wharton and a Master's in International Studies from the University of Pennsylvania. Carolyn serves on the Geneva Board of the Swiss-American Chamber of Commerce and is an Advisory Board Member of W.I.N., the Women’s International Networking Forum. 5. FREDERIQUE PEDRETTI: Vice President International Quality, Edwards Life Sciences https://ch.linkedin.com/pub/frederique-pedretti-abel/12/959/13/en 6. VERENA VOELTER: Executive Director, Disease Team Lead Dr Verena Voelter is a board certified specialist M.D. in Internal Medicine and Medical Oncology. She spent 12 years in academia as an investigator focusing on translational research in GI cancers and melanoma. Since 2004, as an attending physician at the University hospital, pluridisciplinary oncology center in Lausanne (CHUV-CePO), she focused her research on immunotherapy for melanoma involving specific vaccination approaches as well as adoptive cell transfer protocols. In 2008, she joined Celgene International at their European headquarters in Neuchâtel/Switzerland as Medical director for the lymphoma R&D program. She then moved to European & global Medical Affairs lead M.D. roles for the lymphoma program before spending 2 years in Far East Asia setting up and consolidating the Medical department functions at Celgene Korea and Taiwan. From 2013 to 2014, she held the position of Medical director at Celgene Belgium-Luxembourg with focus on Medical Affairs and contribution to successful reimbursement of new medicines hemato-oncology in Belgium. Since January 1st 2015 she holds the position of Disease Team Lead for the Multiple Myeloma franchise in Europe, Middle East & Africa. In this role, Verena is responsible for strategic planning and operational execution for all MM aspects in Europe and shares business accountability for commercialized MM products with the country organisations. .
Load more

Recommended publications
  • Vibrio Cholerae Mirella Lo Scrudato, Sandrine Borgeaud and Melanie Blokesch*
    Lo Scrudato et al. BMC Microbiology (2014) 14:327 DOI 10.1186/s12866-014-0327-y RESEARCH ARTICLE Open Access Regulatory elements involved in the expression of competence genes in naturally transformable Vibrio cholerae Mirella Lo Scrudato, Sandrine Borgeaud and Melanie Blokesch* Abstract Background: The human pathogen Vibrio cholerae normally enters the developmental program of natural competence for transformation after colonizing chitinous surfaces. Natural competence is regulated by at least three pathways in this organism: chitin sensing/degradation, quorum sensing and carbon catabolite repression (CCR). The cyclic adenosine monophosphate (cAMP) receptor protein CRP, which is the global regulator of CCR, binds to regulatory DNA elements called CRP sites when in complex with cAMP. Previous studies in Haemophilus influenzae suggested that the CRP protein binds competence-specific CRP-S sites under competence-inducing conditions, most likely in concert with the master regulator of transformation Sxy/TfoX. Results: In this study, we investigated the regulation of the competence genes qstR and comEA as an example of the complex process that controls competence gene activation in V. cholerae. We identified previously unrecognized putative CRP-S sites upstream of both genes. Deletion of these motifs significantly impaired natural transformability. Moreover, site-directed mutagenesis of these sites resulted in altered gene expression. This altered gene expression also correlated directly with protein levels, bacterial capacity for DNA uptake, and natural transformability. Conclusions: Based on the data provided in this study we suggest that the identified sites are important for the expression of the competence genes qstR and comEA and therefore for natural transformability of V. cholerae even though the motifs might not reflect bona fide CRP-S sites.
    [Show full text]
  • Molecular Insights Into Vibrio Cholerae's Intra-Amoebal Host
    bioRxiv preprint doi: https://doi.org/10.1101/235598; this version posted December 18, 2017. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. 1 Molecular insights into Vibrio cholerae’s intra-amoebal 2 host-pathogen interactions 3 4 5 Charles Van der Henst1, Stéphanie Clerc2, Sandrine Stutzmann1, Candice Stoudmann1, 6 Tiziana Scrignari1, Catherine Maclachlan2, Graham Knott2 & Melanie Blokesch1* 7 1Laboratory of Molecular Microbiology, Global Health Institute, School of Life Sciences, 8 Station 19, EPFL-SV-UPBLO, Swiss Federal Institute of Technology Lausanne (Ecole 9 Polytechnique Fédérale de Lausanne; EPFL), CH-1015 Lausanne, Switzerland. 10 2Bioelectron Microscopy Core Facility (BioEM), School of Life Sciences, Station 19, EPFL- 11 SV-PTBIOEM, Ecole Polytechnique Fédérale de Lausanne, CH-1015 Lausanne, Switzerland. 12 *Correspondence to: [email protected] 13 14 Vibrio cholerae, which causes the diarrheal disease cholera, is a species of bacteria 15 commonly found in aquatic habitats. Within such environments, the bacterium must defend 16 itself against predatory protozoan grazers. Amoebae are prominent grazers, with 17 Acanthamoeba castellanii being one of the best-studied aquatic amoebae. We previously 18 showed that V. cholerae resists digestion by A. castellanii and establishes a replication niche 19 within the host’s osmoregulatory organelle. In this study, we deciphered the molecular 20 mechanisms involved in the maintenance of V. cholerae’s intra-amoebal replication niche 21 and its ultimate escape from the succumbed host.
    [Show full text]
  • CURRICULUM VITAE Melanie Blokesch
    Swiss Federal Institute of Technology Lausanne (EPFL) Global Health Institute, School of Life Sciences Laboratory of Molecular Microbiology Melanie Blokesch Phone: +41 21 693 06 53 Full Professor Email: [email protected] EPFL-SV-UPBLO, Station 19 Secretary: +41 21 693 7232 CH-1015 Lausanne, Switzerland (Marisa Marciano Wynn) https://www.epfl.ch/labs/blokesch-lab/ Orcid ID: 0000-0002-7024-1489 Researcher ID: A-4057-2013 CURRICULUM VITAE Melanie Blokesch PROFESSIONAL EXPERIENCE AND EDUCATION June 2021- Full Professor, Global Health Institute, School of Life Sciences, Swiss Federal Institute of Technology Lausanne (EPFL), Switzerland 2016-2021 Associate Professor (tenured), Global Health Institute, School of Life Sciences, Swiss Federal Institute of Technology Lausanne (EPFL), Switzerland 2009-2016 Tenure-track Assistant Professor, Global Health Institute, School of Life Sciences, Swiss Federal Institute of Technology Lausanne (EPFL), Switzerland 2005-2009 Postdoctoral Fellow, Division of Infectious Diseases and Geographic Medicine & Department of Microbiology & Immunology, Stanford University, CA, USA Mentor: Prof. Dr. Gary Schoolnik 2000-2004 PhD in Biology (doctoral degree/Dr. rer. nat.); summa cum laude; with highest distinction Department Biology I, Microbiology, Ludwig-Maximilians-University, Munich, Germany Thesis advisor: Prof. Dr. Dr. h.c. August Böck 1995-2000 Diploma in Biology, Microbiology (major), Genetics, Medical Microbiology, Immunology (minors), Ludwig-Maximilians-University, Munich, Germany; Diploma thesis at the
    [Show full text]
  • Blokesch CV 210710 for Webpage
    Swiss Federal Institute of Technology Lausanne (EPFL) Global Health Institute, School of Life Sciences Laboratory of Molecular Microbiology Melanie Blokesch Phone: +41 21 693 06 53 Full Professor Email: [email protected] EPFL-SV-UPBLO, Station 19 Secretary: +41 21 693 7232 CH-1015 Lausanne, Switzerland (Marisa Marciano Wynn) https://www.epfl.ch/labs/blokesch-lab/ Orcid ID: 0000-0002-7024-1489 Researcher ID: A-4057-2013 CURRICULUM VITAE Melanie Blokesch PROFESSIONAL EXPERIENCE AND EDUCATION June 2021- Full Professor, Global Health Institute, School of Life Sciences, Swiss Federal Institute of Technology Lausanne (EPFL), Switzerland 2016-2021 Associate Professor (tenured), Global Health Institute, School of Life Sciences, Swiss Federal Institute of Technology Lausanne (EPFL), Switzerland 2009-2016 Tenure-track Assistant Professor, Global Health Institute, School of Life Sciences, Swiss Federal Institute of Technology Lausanne (EPFL), Switzerland 2005-2009 Postdoctoral Fellow, Division of Infectious Diseases and Geographic Medicine & Department of Microbiology & Immunology, Stanford University, CA, USA Mentor: Prof. Dr. Gary Schoolnik 2000-2004 PhD in Biology (doctoral degree/Dr. rer. nat.); summa cum laude; with highest distinction Department Biology I, Microbiology, Ludwig-Maximilians-University, Munich, Germany Thesis advisor: Prof. Dr. Dr. h.c. August Böck 1995-2000 Diploma in Biology, Microbiology (major), Genetics, Medical Microbiology, Immunology (minors), Ludwig-Maximilians-University, Munich, Germany; Diploma thesis at the
    [Show full text]
  • Sevasti Filippidou
    Sevasti Filippidou University of Neuchatel, 2016 Sporulation Capability and Metabolic Mechanisms of Endospore-Forming Firmicutes under Conditions Limiting for Growth and Survival A dissertation submitted to the University of Neuchatel for the degree of Docteure ès Sciences by Sevasti Filippidou, MSc Molecular Genetics Accepted by the Jury: Prof. Pilar Junier, thesis director, University of Neuchatel Prof. Maarten Voordow, University of Neuchatel Prof. Melanie Blokesch, EPFL, Lausanne Dr. David Russel Johnson, Eawag, Dübendorf Dr. Paul Herron, University of Strathclyde, Glasgow, UK Defended the 11th April 2016 University of Neuchatel Faculté des sciences Secrétariat-décanat de Faculté Rue Emile-Argand 11 2000 Neuchâtel - Suisse Tél: + 41 (0)32 718 2100 E-mail: [email protected] IMPRIMATUR POUR THESE DE DOCTORAT La Faculté des sciences de l'Université de Neuchâtel autorise l'impression de la présente thèse soutenue par Madame Sevasti Filippidou Titre: “Sporulation capability and metabolic mechanisms of endospore-forming Firmicutes under conditions limiting for growth and survival” sur le rapport des membres du jury composé comme suit: - Prof. Pilar Junier, directrice de thèse, Université de Neuchâtel, Suisse - Prof. ass. Maarten Voordouw, Université de Neuchâtel, Suisse - Prof. Melanie Blokesch, EPF Lausanne, Suisse - Dr David R. Johnson, EAWAG, Dübendorf, Suisse - Dr Paul Herron, University of Strathclyde, Glasgow, UK Neuchâtel, le 28 avril 2016 Le Doyen, Prof. B. Colbois Imprimatur pour thèse de doctorat www.unine.ch/sciences This work is dedicated to The memory of Marilena Vourkou, for her inspiration to life, Entropia, that has shaped me to what I am, Dimitris Serafis, without whom I wouldn’t have reached that far.
    [Show full text]
  • SSM 2018 – Abstract Book – Final Version
    SSM 2018 – Abstract book – final version 1 SSM 2018 – Abstract book – final version Congress organization Prof. Gilbert Greub, Institut de Microbiologie, Lausanne President SSM-SGM 2016-2018 Prof. Stefan Kunz, Institut de Microbiologie, Lausanne Co-president of the Scientific Committee Sébastien Aeby, Institut de Microbiologie, Lausanne Organizing committee Scientific committee Prokaryotic Biology Mélanie Blokesch + Patrick Viollier Environmental Microbiology Pilar Junier + Jan Van der Meer Mycology Alix Coste + Sophie Martin Virology Stefan Kunz + Volker Thiel Clinical Microbiology Jacques Schrenzel + Gilbert Greub Lay communication Karl Perron + Gilbert Greub 2 SSM 2018 – Abstract book – final version CONTENT SHORT TALKS ___________________________________________ 4 CM Clinical Microbiology _____________________________ 5 EM Environmental Microbiology_________________________ 16 PB Prokaryotic Biology ________________________________ 30 MY Mycology _______________________________________ 42 VI Virology _________________________________________ 56 Session 1 Modern diagnostic microbiology ___________ 65 Session 2 Microbial pathogenesis ____________________ 69 Session 3 Antibiotic resistance _______________________ 73 Session 4 Phages _________________________________ 77 Session 5 Vector-borne diseases _____________________ 81 Session 6 Combating antibiotic resistance [NRP72] ______ 85 Session 7 Microfluidics and innovative diagnostic tests ___ 90 Session 8 Innate immunity __________________________ 95 Session 9 Host pathogen interaction
    [Show full text]
  • An Intracellular Replication Niche for Vibrio Cholerae in the Amoeba Acanthamoeba Castellanii
    The ISME Journal (2016) 10, 897–910 OPEN © 2016 International Society for Microbial Ecology All rights reserved 1751-7362/16 www.nature.com/ismej ORIGINAL ARTICLE An intracellular replication niche for Vibrio cholerae in the amoeba Acanthamoeba castellanii Charles Van der Henst1, Tiziana Scrignari1, Catherine Maclachlan2 and Melanie Blokesch1 1Laboratory of Molecular Microbiology, Global Health Institute, School of Life Sciences, Station 19, EPFL-SV-UPBLO, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland and 2Bioelectron Microscopy Core Facility (BioEM), School of Life Sciences, Station 19, EPFL-SV-PTBIOEM, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland Vibrio cholerae is a human pathogen and the causative agent of cholera. The persistence of this bacterium in aquatic environments is a key epidemiological concern, as cholera is transmitted through contaminated water. Predatory protists, such as amoebae, are major regulators of bacterial populations in such environments. Therefore, we investigated the interaction between V. cholerae and the amoeba Acanthamoeba castellanii at the single-cell level. We observed that V. cholerae can resist intracellular killing. The non-digested bacteria were either released or, alternatively, established a replication niche within the contractile vacuole of A. castellanii. V. cholerae was maintained within this compartment even upon encystment. The pathogen ultimately returned to its aquatic habitat through lysis of A. castellanii, a process that was dependent on the production of extracellular polysaccharide by the pathogen. This study reinforces the concept that V. cholerae is a facultative intracellular bacterium and describes a new host–pathogen interaction. The ISME Journal (2016) 10, 897–910; doi:10.1038/ismej.2015.165; published online 22 September 2015 Introduction host–microbe interactions.
    [Show full text]
  • VIBRIO 2014 Meeting Report Didier Mazel, Rita Colwell, Karl Klose, James Oliver, Mags Crumlish, Diane Mcdougald, Michael Bland, Brian Austin
    VIBRIO 2014 meeting report Didier Mazel, Rita Colwell, Karl Klose, James Oliver, Mags Crumlish, Diane Mcdougald, Michael Bland, Brian Austin To cite this version: Didier Mazel, Rita Colwell, Karl Klose, James Oliver, Mags Crumlish, et al.. VIBRIO 2014 meeting report. Research in Microbiology, Elsevier, 2014, 165 (10), pp.857-864. 10.1016/j.resmic.2014.10.009. pasteur-01698403 HAL Id: pasteur-01698403 https://hal-pasteur.archives-ouvertes.fr/pasteur-01698403 Submitted on 1 Feb 2018 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. 1 VIBRIO 2014 Meeting Report. 2 3 Didier Mazel1, Rita Colwell2, Karl Klose3, James Oliver4, Mags Crumlish5, Diane 4 McDougald6, Michael J. Bland1, and Brian Austin5 5 6 1, Unité Plasticité du Génome bactérien and CNRS UMR 3525, Département de 7 Génomes et Génétique, Institut Pasteur, Paris, France. 8 2, Maryland Pathogen Research Institute and Center of Bioinformatics and 9 Computational Biology, University of Maryland, College Park, MD 20742, USA. 10 3, Department of Biology, University of Texas San Antonio, San Antonio, TX 78249, 11 USA. 12 4, Department of Biology, University North Carolina at Charlotte, Charlotte, NC 13 28223, USA.
    [Show full text]
  • Bacterial Type VI Secretion System Facilitates Niche Domination
    COMMENTARY Bacterial type VI secretion system facilitates niche domination COMMENTARY Nat ´aliaC. Drebes Dörra and Melanie Blokescha,1 Over the last few decades humanity has experienced a function(s) under controlled laboratory conditions. The series of tremendous technological advances, espe- machinery is composed of two main parts: a membrane- cially in the realm of basic science. A plethora of new spanning complex and a double tube structure that approaches has allowed us to appreciate life in pre- resembles a contractile bacteriophage tail (1, 7, 8). viously unimaginable detail, prompting the realization Upon contraction of the outer sheath structure, the in- that life in the microscopic world is not so different ner tube and its membrane-puncturing spike are pro- from what we can observe with our naked eyes. pelled out of the bacterium and into the neighboring Microorganisms, for instance, like any other organism, cell (Fig. 1). During this process, effector proteins are compete with one another for resources and space. delivered, which can intoxicate the target organism. Bacteria often use simple mechanisms to occupy their These effectors have different functions but frequently niche such as rapid growth and biofilm formation. target conserved bacterial or eukaryotic cellular struc- Bacteria also use ingenious strategies to maximize tures such as the cell wall, the membrane compartment, their success. Indeed, to engage in warfare, microor- nucleic acids, or the actin cytoskeleton (9). This sug- ganisms often produce diffusible toxic antimicrobial gests that the system is multipurpose and might have compounds as well as other more complicated mo- evolved to cope with a wide variety of both bacterial lecular weapons.
    [Show full text]
  • 2018 COVER IMAGE Confocal Image of a Section of an Embryonic Day (E)7.5 Mouse Embryo, Immunostained for E-Cadherin (Green) and Ror Receptor (Red)
    2018 COVER IMAGE Confocal image of a section of an embryonic day (E)7.5 mouse embryo, immunostained for E-cadherin (green) and Ror receptor (Red). Credits: Rita Aires and André Dias, IGC. This Annual Report covers the Instituto Gulbenkian de Ciência's financial year, from 1st January to 31st December 2018. 2018 4 Foreword from the Director 8 Organisation 10 The IGC at a Glance 15 Budget Overview 16 A Walk Through 2018 24 Some Science Stories from 2018 1 RESEARCH 34 Adrain, Colin | Membrane Traffic 36 Alves, Filipa | Biophysics and Genetics of Morphogenesis 38 Amorim, Maria João | Cell Biology of Viral Infection 40 Athanasiadis, Alekos | Protein-Nucleic Acids Interactions 42 Baena González, Elena | Plant Stress Signalling 44 Bank, Claudia | Evolutionary Dynamics 48 Becker, Jörg | Plant Genomics 50 Beldade, Patrícia | Variation: Development and Selection 52 Bettencourt Dias, Mónica | Cell Cycle Regulation 54 Carneiro, Jorge | Quantitative Organism Biology 56 Castro, Diogo S. | Molecular Neurobiology 58 Chaouiya, Claudine | Network Modelling 62 Chikhi, Lounès | Population and Conservation Genetics 64 Demengeot, Jocelyne | Lymphocyte Physiology 66 Domingos, Ana I. | Obesity 68 Duque, Paula | Plant Molecular Biology 70 Ferreira, Miguel Godinho | Telomeres and Genome Stability 72 Fesel, Constantin | Lupus and Autoreactive Immune Repertoires 76 Gjini, Erida | Mathematical Modelling of Biological Processes 78 Gonçalves-Sá, Joana | Science and Policy 80 Gordo, Isabel | Evolutionary Biology 82 Howard, Jonathan C. | Host-Pathogen Co-Evolution 84 Jansen, Lars E. T. | Epigenetic Mechanisms 86 Mallo, Moisés | Patterning and Morphogenesis 90 Martins, Vera | Lymphocyte Development and Leukemogenesis 92 Moita, Luís Ferreira | Innate Immunity and Inflammation 94 Oliveira, Raquel A. | Chromosome Dynamics 96 Oliveira, Rui F.
    [Show full text]
  • Genetic and Molecular Characterizations of Hydrogenases and Sulfate Metabolism Proteins of Desulfovibrio Vulgaris Miyazaki F
    Genetic and Molecular Characterizations of Hydrogenases and Sulfate Metabolism Proteins of Desulfovibrio vulgaris Miyazaki F Inaugural-Dissertation zur Erlangung des Doktorgrades der Mathematisch-Naturwissenschaftlichen Fakultät der Heinrich-Heine-Universität Düsseldorf vorgelegt von Amrit Pal Kaur aus Amritsar (Indien) Düsseldorf, January 2009 Zusammenfassung Der hier untersuchte Organismus Desulfovibrio vulgaris Miyazaki F (DvMF) ist seit langem bekannt auf Grund detaillierter Untersuchungen an seiner [NiFe] Hydrogenase und an Sulfat- Stoffwechselproteinen sowie einiger anderer Metallo-Enzyme, die in Zusammenhang mit den Hydrogenasen stehen. Unabhängig von den relativ guten Ausbeuten, die man für diese Proteine erzielt, ist die funktionale und genetische Manipulation schwierig, da die Sequenzen der kodierenden Gene nicht bekannt waren sind. In dieser Arbeit wurden genetische und molekularbiologische Fortschritte erzielt und weitere Informationen über den Stoffwechsel der Hydrogenasen von DvMF erhalten. Das gesamte Genom von DvMF wurde in eine Cosmid-Bank kloniert. Die Verwendung von dioxygenin-markierten DNA-Sonden aus bekannten homologen Sequenzen von D. vulgaris Hildenborough (DvH) führte zur Identifizierung der gesuchten Gene. Sie kodieren zwei zusätzliche Hydrogenasen, eine aus zwei Untereinheiten bestehende [NiFeSe] Hydrogenase (hysA und hysB) und eine sechs Untereinheiten große Ech Hydrogenase (echA - echF). Zusätzlich wurden die Gensequenzen für fünf „Maturierungs“-Proteine aufgeklärt (hypA - hypF). Diese Methode wurde auch angewandt
    [Show full text]
  • Genome, Mutational and RNA-Seq Analyses of Janthinobacterium And
    Genome, mutational and RNA-seq analyses of Janthinobacterium and Duganella strains reveal the presence of a single α-hydroxyketone-like quorum sensing system involved in bacterial-fungal interactions Dissertation for obtaining the degree Doctor rerum naturalium (Dr. rer. nat.) at the Department of Biology Subdivision of the Faculty of Mathematics, Informatics and Natural Sciences of the University of Hamburg by Frederike Svenja Haack from Itzehoe Hamburg 2016 Approved by the Department of Biology, University of Hamburg at the request of Prof. Dr. Wolfgang Streit Second evaluator of the dissertation: Prof. Dr. Wilhelm Schäfer Date of defense (Disputation): 24. October 2016 This is a corrected version. Declaration on oath I hereby declare, on oath, that I have written the present dissertation by my own and have not used other than the acknowledged resources and aids. Hamburg, ______________________________ Frederike Haack English Language Declaration I hereby declare as a native English speaker that I have checked the thesis “Genome, mutational and RNA-seq analyses of Janthinobacterium and Duganella strains reveal the presence of a single α-hydroxyketone-like quorum sensing system involved in bacterial-fungal interactions” by Frederike Svenja Haack for grammatically correct English and the scientific accuracy of the language. I also confirm that I am a native English speaker. Sincerely, _________________________________ Carla Haslauer Following publications contribute to this research Frederike S. Haack, Anja Poehlein, Cathrin Kröger, Christian A. Voigt, Meike Piepenring, Helge B. Bode, Rolf Daniel, Wilhelm Schäfer and Wolfgang R. Streit (2016). „Molecular Keys to the Janthinobacterium and Duganella spp. Interaction with the Plant Pathogen Fusarium graminearum”. Front. Microbiol. 7:1668.
    [Show full text]