Function and regulation of Vibrio campbellii proteorhodopsin: acquired phototrophy in a classical organoheterotroph.

Proteorhodopsins (PRs) are retinal-binding photoproteins that mediate light-driven proton translocation across prokaryotic cell membranes. Despite their abundance, wide distribution and contribution to the bioenergy budget of the marine photic zone, an understanding of PR function and physiological significance in situ has been hampered as the vast majority of PRs studied to date are from unculturable bacteria or culturable species that lack the tools for genetic manipulation. In this study, we describe the presence and function of a horizontally acquired PR and retinal biosynthesis gene cluster in the culturable and genetically tractable bioluminescent marine bacterium Vibrio campbellii.

Transcript and proteomic analyses of wild-type and gpa2 mutant Saccharomyces cerevisiae strains suggest a role for glycolytic carbon source sensing in pseudohyphal differentiation.

In response to limited nitrogen and abundant carbon sources, diploid Saccharomyces cerevisiae strains undergo a filamentous transition in cell growth as part of pseudohyphal differentiation. Use of the disaccharide maltose as the principal carbon source, in contrast to the preferred nutrient monosaccharide glucose, has been shown to induce a hyper-filamentous growth phenotype in a strain deficient for GPA2 which codes for a Galpha protein component that interacts with the glucose-sensing receptor Gpr1p to regulate filamentous growth. In this report, we compare the global transcript and proteomic profiles of wild-type and Gpa2p deficient diploid yeast strains grown on both rich and nitrogen starved maltose media.

Unbiased examination of changes in plasma membrane proteins in drug resistant cancer cells.

In this study, an unbiased examination is made of the abundance changes between proteins found in the basolateral plasma membranes of a drug susceptible parental MCF-7 breast cancer cell line and a cell line selected from the parent line for resistance to the anticancer drug mitoxantrone. Plasma membrane proteins were differentially labeled metabolically, enriched using the colloidal silica pellicle method, and characterized by tandem mass spectrometry. Fifteen proteins were identified with significant (>2) changes, including receptors, adhesion proteins, proteins involved in amino acid uptake, and proteins involved in glucose uptake.

Integration of Jacobson's pellicle method into proteomic strategies for plasma membrane proteins.

A modified form of the cationic colloidal silica technique for plasma membrane isolation has been combined with SDS-PAGE, mass spectrometry, and bioinformatics for evaluation as a proteomics strategy with human multiple myeloma cells and human breast cancer cells. On the basis of Western blots, half of the protein isolated is estimated to come from the plasma membrane. Forty-three percent of the 366 proteins identified by mass spectrometry had been previously classified as plasma membrane proteins.