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  3. <b>BIOPHYSICS SEMINAR</b><br>Hijacking Pathogenic Membrane Proteins to Engineer Cellular Entry: A Molecular Biophysics Approach
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<b>BIOPHYSICS SEMINAR</b><br>Hijacking Pathogenic Membrane Proteins to Engineer Cellular Entry: A Molecular Biophysics Approach

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Friday, March 11, 2016
5:00 AM
1300 Chemistry

Hijacking pathogenic membrane proteins to engineer cellular entry: A molecular biophysics approach Invasive pathogenic bacteria feature many cellular niches and life cycles, for which they have developed functions that are potentially attractive in biotechnology and therapeutic delivery applications. One such function is tissue-specific bacterial engulfment in human cells which do not normally undergo phagocytosis. Opacity-associated (Opa) proteins of Neisseria gonorrhoeae and N. meningitides are eight-stranded outer membrane proteins that bind to different host receptors, triggering engulfment of the bacterium. Receptor selectivity is determined by regions of the extracellular loops with high sequence variability; to date, 338 distinct opa alleles have been sequenced. Our hybrid NMR and molecular dynamics structure of an Opa reveals that the variable regions are dynamic and disordered, and sample conformations that may be competent for receptor binding. To complement our structural studies, Opa – human receptor interactions are being examined in vitro and in vivo, using liposomes and nanodiscs. In vitro studies focus on the strength and specificity of the interaction, while our in vivo studies are elucidating the cell fate and signaling of Opa liposomes. Our work suggests that a high degree of structural plasticity is required to tolerate the diverse sequences, and the dynamic ensemble allows sampling of conformers competent to engage receptors. Thus, perhaps counterintuitively, conformational plasticity offers a mechanism for functional versatility in this remarkable biological system.

Speaker:
Linda Columbus (University of Virginia)
Physics
Randall Lab and Homer A. Neal Lab
450 Church Street
Ann Arbor, MI 48109-1040
734.764.4437
734.763.9694
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