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There is now a CONTENT FREEZE for Mercury while we switch to a new platform. It began on Friday, March 10 at 6pm and will end on Wednesday, March 15 at noon. No new content can be created during this time, but all material in the system as of the beginning of the freeze will be migrated to the new platform, including users and groups. Functionally the new site is identical to the old one. webteam@gatech.edu
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Summary Sentence: "Warding Off Disease on Coral Reefs: Antimicrobial Chemical Cues and their Future in Drug Discovery" - Julia Kubanek, PhD - Professor, School of Biology
Full Summary: Breakfast Club Seminar Series - "Warding Off Disease on Coral Reefs: Antimicrobial Chemical Cues and their Future in Drug Discovery" - Julia Kubanek, PhD - Professor, School of Biology
Breakfast Club Seminar Series
Julia Kubanek, PhD"Warding Off Disease on Coral Reefs: Antimicrobial Chemical Cues and their Future in Drug Discovery"
Julia Kubanek, PhD - Professor, School of Biology
Unlike many animals, seaweeds do not possess adaptive immune systems to ward off disease. In many cases, they produce small molecules – natural antibiotics – that prevent colonization or infection by pathogens. We have found that seaweeds produce unusual secondary metabolites against pathogen attack, including complex isoprenoid-and shikimate-derived macrolides not seen in any other organisms. Surprisingly, these natural antifungals are not distributed evenly across algal surfaces; instead they are concentrated at discrete surface patches where they provide bursts of protection at sites that may be especially vulnerable to infection due to prior wounding. Working with the Fernandez lab at Georgia Tech, we applied surface imaging mass spectrometry to intact algal surfaces to show that antifungal defenses are heterogeneously distributed, with compound concentrations high enough at localized patches to block infection. This patchy distribution may represent an optimal defense strategy, in which the most vulnerable parts of the alga are best defended. Chemical defenses of seaweeds also serve as valuable leads for pharmaceutical development. Members of one group of algal antifungal agents, the bromophycolides, exhibit potent in vitro and in vivo antimalarial activity with an unexpected mechanism of action, inhibiting growth of the malarial parasite Plasmodium falciparum at sub-micromolar concentrations. Using a molecular probe designed from the seaweed’s antifungal agent, we identified a major molecular target and drug binding mechanism within the malaria parasite that is helping guide our synthesis of novel analogs for future development.
The IBB Breakfast Club seminar series was started with the spirit of the Institute's interdisciplinary mission in mind and started to feature local IBB faculty member's research in a seminar format. Faculty are often asked to speak at other universities and conferences, but rarely present at their home institution, this seminar series is an attempt to close that gap. The IBB Breakfast Club is open to anyone in the bio-community.
