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关于举办“Less is more: a novel strategy for increasing growth substrate range in Pseudomonas putida F1.”学术报告的通知

  报告题目:Less is more: a novel strategy for increasing growth substrate range in Pseudomonas putida F1.

  报 告 人:Dr. Anthony G. Hay
       Director for the Institute for Comparative and Environmental Toxicology
       Associate Professor of Cornell University

  报告时间:2011年6月3日 上午10:00-11:30

  报告地点:生命学院四层多媒体室

  报告人简介:
  PROFESSIONAL EXPERIENCE

  9/05-     Director, Institute for Comparative and Environmental Toxicology, Cornell University, Ithaca NY

  7/05-     Associate Professor of Microbiology, Cornell University, Ithaca NY

  8/07-6/08   Interim Director, Center for the Environment, Cornell University, Ithaca NY

  8/99-6/05   Assistant Professor of Microbiology, Cornell University, Ithaca NY.

  9/97-7/99   U.S. Department of Energy Alexander Hollaender Distinguished Postdoctoral Fellow, Center for Environmental Biotechnology, University of Tennessee, Knoxville, TN (Advisor Dr. G.S. Sayler)

  9/94-9/97   Chancellor’s Distinguished Graduate Fellow, University of California Riverside, Riverside, CA.

  RESEARCH INTERESTS

  There are 3 main foci in his laboratory: biodegradation, biofiltration, and biofilms. The biodegradation projects focus mostly on pharmaceutical and personal care products including the antimicrobial triclosan, the pain killer ibuprofen, the insect repellant DEET, and the detergent breakdown product nonylphenol. They are interested in the genetics, biochemistry, and ecology of the degradation process, but also in applying the type of knowledge they get about the mechanisms of biodegradation in useful ways, which leads to the second subject, biofiltration. They have been working with a company out of Syracuse NY to develop inexpensive modular biofilftration units that allow them to capitalize on the biodegradation capacities of microorganisms. In this regard they have focused on styrene removal from contaminated factory air. The final area, biofilms, centers on more basic science that they hope will inform them about lifestyle that dominates biofilters and other surfaces including those of medical relevance. Biofilms are surface attached microbes encapsulated in extracellular polymeric substances. Bacteria in these communities behave quite differently than the free-swimming organisms that have traditionally been studied by microbiologists. They are using genome-enabled technologies to look at the genes that are required by a model biofilm organism and how these genes are expressed. Recently they have been focusing specifically on the role that genes from a defective prophage play in biofilm development.

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                生命科学学院
                 2011年6月2日