Deborah A. Lewis scite author profile

Transport of sugars is a fundamental property of all eukaryotic cells. Of particular importance is the uptake of glucose, a preferred carbon and energy source. The rate of glucose utilization in yeast is often dictated by the activity and concentration of glucose transporters in the plasma membrane. Given the importance of transport as a site of control of glycolytic flux, the regulation of glucose transporters is necessarily complex. The molecular analysis of these transporters in Saccharomyces has revealed the existence of a multigene family of sugar carriers. Recent data have raised the question of the actual role of all of these proteins in sugar catabolism, as some appear to be lowly expressed, and point mutations of these genes may confer pleiotropic phenotypes, inconsistent with a simple role as catabolic transporters. The transporters themselves appear to be intimately involved in the process of sensing glucose, a model for which there is growing support.

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The PrfA virulence regulon

Scortti

Monzó

Lacharme-Lora

et al. 2007

Microbes and Infection

206

229

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Gonadal Steroids: Effects on Excitability of Hippocampal Pyramidal Cells

Teyler

Vardaris

Lewis

et al. 1980

Science

298

122

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Electrophysiological field potentials from hippocampal slices of rat brain show sex-linked differences in response to 1 X 10(-10)M concentrations of estradiol and testosterone added to the incubation medium. Slices from male rats show increased excitability to estradiol and not to testosterone. Slices from female rats are not affected by estradiol, but slices from female rats in diestrus show increased excitability in response to testosterone whereas slices from females in proestrus show decreased excitability.

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Molecular Epidemiology of Rhodococcus equi Based on traA, vapA, and vapB Virulence Plasmid Markers

et al. 2007

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Molecular typing of the actinomycete Rhodococcus equi is insufficiently developed, and little is known about the epidemiology and transmission of this multihost pathogen. We report a simple, reliable polymerase chain reaction typing system for R. equi based on 3 plasmid gene markers: traA from the conserved conjugal transfer machinery and vapA and vapB, found in 2 different plasmid subpopulations. This "TRAVAP" typing scheme classifies R. equi into 4 categories: traA(+)/vapA(+)B(-), traA(+)/vapA(-)B(+), traA(+)/vapAB(-), and traA(-)/vapAB(-) (plasmidless). A TRAVAP survey of 215 R. equi strains confirmed the strong link between vapA (traA(+)/vapA(+)B(-) plasmids) and horse isolates and revealed other host-related plasmid associations: between traA(+)/vapA(-)B(+) and pigs and between traA(+)/vapAB(-)--a new type of R. equi plasmid--and cattle. Plasmidless strains were more frequent among isolates from nonpathological specimens. All plasmid categories were common in human isolates, which possibly reflects the predominantly opportunistic nature of R. equi infection in this host and a zoonotic origin.

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Deborah A. Lewis

Yeast Sugar Transporters

The PrfA virulence regulon

Gonadal Steroids: Effects on Excitability of Hippocampal Pyramidal Cells

Molecular Epidemiology of Rhodococcus equi Based on traA, vapA, and vapB Virulence Plasmid Markers

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