Membrane fluidity regulation in yeasts
Poster
Paper/Presentation Title | Membrane fluidity regulation in yeasts |
---|---|
Presentation Type | Poster |
Authors | Learmonth, Robert P. (Author) and Butcher, Brett A. (Author) |
Editors | Jameson, David M. |
Journal or Proceedings Title | Proceedings of the 7th International Weber Symposium on Innovative Fluorescence Methodologies in Biochemistry and Medicine |
Number of Pages | 1 |
Year | 2008 |
Place of Publication | Hawaii |
Web Address (URL) of Paper | http://www.lfd.uci.edu/weber/symposium/2008/#abstracts |
Conference/Event | 7th International Weber Symposium on Innovative Fluorescence Methodologies in Biochemistry and Medicine |
Event Details | 7th International Weber Symposium on Innovative Fluorescence Methodologies in Biochemistry and Medicine Event Date 06 to end of 12 Jun 2008 Event Location Kauai, Hawaii |
Abstract | Membrane fluidity modulation appears to be an important mechanism facilitating yeast environmental adaptation. To elucidate underlying processes that may contribute to fluidity modulation we compared responses in yeasts mutants lacking the lipid desaturase ole1 or membrane-associated hsp30, to response of the parent strain. We assessed membrane fluidity, composition and cell physiological parameters during aerobic and anaerobic batch culture, as well as in response to glucose, a metabolite that stimulates marked change in cell physiology. Fluidity modulation was assessed by determination of Generalized Polarization of the membrane probe laurdan, via steady state fluorescence spectroscopy. During batch growth the parent strain showed characteristic patterns of membrane fluidity, membrane phospholipid and fatty acyl composition, growth rate, glucose or ethanol consumption and viability. However the ole and hsp30 deletants appeared to be out of balance with less efficient metabolism, lower cell division rates and lower viability. The ole defect could be ameliorated by addition of unsaturated fatty acids. The hsp30 defect could not be ameliorated externally and had particular impact over the transition at glucose exhaustion. The hsp30 and ole deletants both showed abnormal changes in fluidity on exposure to glucose. In summary the fluidity regulation responses in the mutants were different to the parent strain, being unbalanced by ablation of the activities of either membrane-associated protein. |
Keywords | yeast; membrane; fluidity; yeast environmental adaptation |
ANZSRC Field of Research 2020 | 310603. Fermentation |
310110. Receptors and membrane biology | |
310704. Microbial genetics | |
Public Notes | This is an unrefereed poster paper presented at the conference. No evidence of copyright restrictions. |
Byline Affiliations | Centre for Systems Biology |
Progen Industries, Australia |
https://research.usq.edu.au/item/9z64v/membrane-fluidity-regulation-in-yeasts
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