Preferential Exclusion and Hydration Dynamics in Compatible Osmolyte Solutions
ORAL
Abstract
Compatible osmolytes are a broad class of small organic molecules employed by living systems to combat environmental stress by enhancing native protein structure. The molecular features which make for a superior biopreservation remain elusive. Through use of time resolved and steady state spectroscopic techniques, in combination with molecular simulation, insight into what makes one molecule a more effective compatible osmolyte can be gained. Disaccharides differing only in their glycosodic bonds can exhibit different degrees of stabilization against thermal denaturation. The degree to which each sugar is preferentially excluded may explain these differences.
*This material is based upon work supported by NASA under Award No. RIP20_10.0 issued through Wisconsin Space Grant Consortium.
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Publication: Nimesh Shukla, Brianna Bembenek, Erika A. Taylor, and Christina M. Othon; "Conformational Consequences for Compatible Osmolytes on Thermal Denaturation" (2021)
N. Shukla, C.J.S. Hect, J. Goeks, E. A. Taylor, C. M. Othon "Hydration Dynamics in Solutions of Cyclic Polyhydroxyl Osmolytes", Journal of Physical Chemistry B, 123 (40), 8472-8479. (2019)
N. Shukla, E. Pomarico, L. Chen, M. Chergui, and C. M. Othon "Retardation of Bulk Water Dynamics by Disaccharide Osmolytes", J. Phys. Chem. B, 2016, 120 (35), pp 9477–9483. (2016)
Presenters
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Christina Othon
- Ripon College