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Brett Finlay is a professor in the Michael Smith Laboratories, and the Departments of Biochemistry and Molecular Biology, and Microbiology and Immunology at the University of British Columbia.
His research program focuses on E. coli, how it interacts with the cells of the human gut, and mouse models of E. coli-like infections. Dr. Finlay will speak at the conference on Beneficial Microbes in San Diego this October, where he’ll describe the results of some of his latest research, which examines how E. coli infections effect the microbes that live in our guts.
Sadly, outbreaks of Escherichia coli infections in this country are common – just this summer a huge E. coli outbreak in Oklahoma sickened nearly 300 people and sent 67 of them to the hospital. Clearly, in an outbreak, not everyone is effected equally. When lots of people are exposed to E. coli, why do some of those people walk away unharmed while others wind up in the I.C.U.? Dr. Finlay would say part of the answer, at least, probably lies in which microbes live in our intestine.
In this podcast, I talked with Dr. Finlay about why we have so many different kinds of microbes in our guts, what happens to them when E. coli strikes, and why we have a long way to go before probiotics offer help – and not just hope.
Direct download: MTS5
David Relman is a Professor of Medicine and of Microbiology & Immunology at Stanford University, and his research program focuses on the human microbiome – the microbial communities of bacteria, viruses, and other organisms that thrive on and in the human body. He’ll be speaking at ASM’s conference on Beneficial Microbes in San Diego this October, where he’ll talk about our personal microbial ecosystems, how far we’ve come in research and how far we have to go.
Since Louis Pasteur first deduced that microbes are to blame for infectious disease, doctors and scientists alike have mostly seen infection as warfare between a pathogen and the human body. Dr. Relman sees things a little differently. To him, the complex communities of microbes that line our skin, mouths, intestines, and other orifices (ahem) are also involved in this battle, interacting with pathogens and with our bodies, and these interactions help determine how a fracas plays out.
In this interview, I asked Dr. Relman about our personal ecosystems of microbes, whether we’ll ever be able to understand and predict what these communities do, and about the sometimes distressing effects of oral antibiotics on our guts. We also talked about whether being MTV’s Rock Doctor back in the 1990’s had an impact on his other professional pursuits.
Direct download: MTS4
Ute Hentschel is a professor of chemical ecology at the University of Würzburg in Germany. Her research focuses on characterizing the microbial communities associated with marine sponges, the diversity of these symbionts and their activities.
On this episode, I talk with Ute Hentschel about her research on the microbes that live on and in sea sponges – those squishy, colorful residents of coral reefs
Dr. Hentschel describes some of the utterly unique microbes that are only found in sponges, what those microbes get from living in a sponge hotel, and why it’s nice to have a study site in the Bahamas.
Direct dowload: MTS3
Seth Darst is a professor of Molecular Biophysics at the Rockefeller University in New York city, where his research centers on RNA polymerase, the enzyme at the heart of a cell’s ability to make protein from a set of DNA instructions.
In this interview, I talk with Dr. Darst about how he got his start in research, whether computers will eventually be able to predict complex protein structures, and why eager young scientists shouldn’t miss their chance at postdoctoral training.
Direct download: MTS2
He develops useful microbial catalysts for biofuel production from sustainable crops and has extended our knowledge of microbial diversity by isolating a number of new genera and species with novel physiologies. He helped define the phylogeny of bacteria.
In this podcast, I talk with Dr. Tanner about his work producing biofuels from burnt plant material, the future of biofuels in the U.S., whether bacterial systematics might be forced to change in light of new research on recombination, and about his approach to teaching microbiology.
Direct download: MTS1