Podcasts about squibb professor

Eric Wieschaus, Squibb Professor in Molecular Biology at Princeton University, talks with Bonnie Bassler, his colleague at Princeton and the Editor of the Annual Review of Genetics, about his life and career. Dr. Wieschaus describes his beginnings as a young boy in Alabama, and recounts how his interest in science was sparked by a science camp in Kansas funded by the National Science Foundation when he was a teenager. After a bachelor's degree at Notre Dame, Dr. Wieschaus was admitted to graduate school at Yale University, where he studied under the direction of Swiss Developmental Biologist Walter Gehring. Dr. Gehring eventually returned to his home country, taking his student with him. In Basel, Dr. Wieschaus met Christiane Nüsslein-Volhard, or "Janni," as he calls her, and together they began the work that defined their careers. Their research resulted in the identification of 139 genes that determine the development of fruit fly embryos (Drosophila melanogaster), a finding that earned them the 1995 Nobel Prize in Physiology or Medicine jointly with Edward B. Lewis.

No bacterium lives alone – it is constantly encountering members of its own species as well as other kinds of bacteria and diverse organisms like viruses, fungi, plants and animals. To navigate a complex world, microbes use chemical signals to sense and communicate with one another. Filmed live on January 28th, 2013, at ASM's headquarters, catch a glimpse into the fascinating language of bacteria with discussions by Bonnie Bassler, Princeton University, and Steven Lindow, University of California, Berkley. Dr. Bonnie Bassler, Princeton University Bonnie Bassler Ph.D. is a Howard Hughes Medical Institute Investigator and the Squibb Professor of Molecular Biology at Princeton University. The research in her laboratory focuses on the molecular mechanisms that bacteria use for intercellular communication. This process is called quorum sensing. Bassler's research is paving the way to the development of novel therapies for combating bacteria by disrupting quorum-sensing-mediated communication. Dr. Bassler was awarded a MacArthur Foundation Fellowship in 2002. She was elected to the American Academy of Microbiology in 2002 and made a fellow of the American Association for the Advancement of Science in 2004. Dr. Bassler was the President of the American Society for Microbiology in 2010-2011; she is currently the Chair of the American Academy of Microbiology Board of Governors. She is also a member of the National Science Board and was nominated to that position by President Barak Obama. The Board oversees the NSF and prioritizes the nation's research and educational priorities in science, math and engineering. Dr. Steven Lindow, University of California, Berkeley Steven Lindow Ph.D. is a Professor at the University of California, Berkley where his research focuses on various aspects of the interaction of bacteria with the surface and interior of plants. Dr. Lindow' s lab uses a variety of molecular and microscopy-based methods to study the ecology of bacterial epiphytes that live on the surface of plants as well as certain bacteria that are vascular pathogens of plants. They also study bacteria that live in and on plants that are fostered by consumption of the alkaloids produced by endophytic fungi. The longer-term goal of their research is to improve plants' productivity by achieving control of plant diseases through altering the microbial communities in and on plants. Dr. Lindow is a member of the National Academy of Sciences, and was elected to fellowship in both the American Academy of Microbiology and the American Association for the Advancement of Science in 1999.

No bacterium lives alone – it is constantly encountering members of its own species as well as other kinds of bacteria and diverse organisms like viruses, fungi, plants and animals. To navigate a complex world, microbes use chemical signals to sense and communicate with one another. Filmed live on January 28th, 2013, at ASM's headquarters, catch a glimpse into the fascinating language of bacteria with discussions by Bonnie Bassler, Princeton University, and Steven Lindow, University of California, Berkley. Dr. Bonnie Bassler, Princeton University Bonnie Bassler Ph.D. is a Howard Hughes Medical Institute Investigator and the Squibb Professor of Molecular Biology at Princeton University. The research in her laboratory focuses on the molecular mechanisms that bacteria use for intercellular communication. This process is called quorum sensing. Bassler’s research is paving the way to the development of novel therapies for combating bacteria by disrupting quorum-sensing-mediated communication. Dr. Bassler was awarded a MacArthur Foundation Fellowship in 2002. She was elected to the American Academy of Microbiology in 2002 and made a fellow of the American Association for the Advancement of Science in 2004. Dr. Bassler was the President of the American Society for Microbiology in 2010-2011; she is currently the Chair of the American Academy of Microbiology Board of Governors. She is also a member of the National Science Board and was nominated to that position by President Barak Obama. The Board oversees the NSF and prioritizes the nation’s research and educational priorities in science, math and engineering. Dr. Steven Lindow, University of California, Berkeley Steven Lindow Ph.D. is a Professor at the University of California, Berkley where his research focuses on various aspects of the interaction of bacteria with the surface and interior of plants. Dr. Lindow’ s lab uses a variety of molecular and microscopy-based methods to study the ecology of bacterial epiphytes that live on the surface of plants as well as certain bacteria that are vascular pathogens of plants. They also study bacteria that live in and on plants that are fostered by consumption of the alkaloids produced by endophytic fungi. The longer-term goal of their research is to improve plants’ productivity by achieving control of plant diseases through altering the microbial communities in and on plants. Dr. Lindow is a member of the National Academy of Sciences, and was elected to fellowship in both the American Academy of Microbiology and the American Association for the Advancement of Science in 1999.

Bacteria communicate with chemical languages that allow them to synchronize their behavior and thereby act as multi-cellular organisms. This process, called quorum sensing, enables bacteria to do things they canât do as a single cell, like successfully infect and cause disease in humans. Bonnie Bassler, Ph.D., the Squibb Professor of Molecular Biology at Princeton University and President-elect for the American Society for Microbiology, has been researching strategies that can interfere with quorum sensing and will hopefully yield novel antibiotics to prevent disease. In this episode of MicrobeWorld Video we present the full presentation Dr. Bassler gave at the Marian Koshland Science Museum in Washington, D.C. on June 18, 2009. Not only does Dr. Bassler explain the mechanisms of bacterial communication, but she also puts forth her theories on how we can disrupt this communication for human benefit.

Bacteria communicate with chemical languages that allow them to synchronize their behavior and thereby act as multi-cellular organisms. This process, called quorum sensing, enables bacteria to do things they canât do as a single cell, like successfully infect and cause disease in humans. Bonnie Bassler, Ph.D., the Squibb Professor of Molecular Biology at Princeton University and President-elect for the American Society for Microbiology, has been researching strategies that can interfere with quorum sensing and will hopefully yield novel antibiotics to prevent disease. In this episode of MicrobeWorld Video we present the full presentation Dr. Bassler gave at the Marian Koshland Science Museum in Washington, D.C. on June 18, 2009. Not only does Dr. Bassler explain the mechanisms of bacterial communication, but she also puts forth her theories on how we can disrupt this communication for human benefit.

Bacteria communicate with chemical languages that allow them to synchronize their behavior and thereby act as multi-cellular organisms. This process, called quorum sensing, enables bacteria to do things they canât do as a single cell, like successfully infect and cause disease in humans. Bonnie Bassler, Ph.D., the Squibb Professor of Molecular Biology at Princeton University and President-elect for the American Society for Microbiology, has been researching strategies that can interfere with quorum sensing and will hopefully yield novel antibiotics to prevent disease. In this episode of MicrobeWorld Video we present the full presentation Dr. Bassler gave at the Marian Koshland Science Museum in Washington, D.C. on June 18, 2009. Not only does Dr. Bassler explain the mechanisms of bacterial communication, but she also puts forth her theories on how we can disrupt this communication for human benefit.