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Query: EC:3.6.1.3 (
ATPase
)
65,361
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous purification and characterization of the yeast vacuolar proton-translocating ATPase (H(+)-
ATPase
) have indicated that it is a multisubunit complex consisting of both integral and peripheral membrane subunits (Uchida, E., Ohsumi, Y., and Anraku, Y. (1985) J. Biol. Chem. 260, 1090-1095; Kane, P. M., Yamashiro, C. T., and Stevens, T. H. (1989) J. Biol. Chem. 264, 19236-19244). We have obtained monoclonal antibodies recognizing the 42- and 100-kDa polypeptides that were co-purified with vacuolar ATPase activity. Using these antibodies we provide further evidence that the 42-kDa polypeptide, a peripheral membrane protein, and the 100-kDa polypeptide, an integral membrane protein, are genuine subunits of the yeast vacuolar H(+)-
ATPase
. The synthesis, assembly, and targeting of three of the peripheral subunits (the 69-, 60-, and 42-kDa subunits) and two of the integral membrane subunits (the 100- and 17-kDa subunits) were examined in mutant yeast cells containing chromosomal deletions in the TFP1,
VAT2
, or VMA3 genes, which encode the 69-, 60-, and 17-kDa subunits, respectively. The steady-state levels of the various subunits in whole cell lysates and purified vacuolar membranes were assessed by Western blotting, and the intracellular localization of the 60- and 100-kDa subunits was also examined by immunofluorescence microscopy. The results suggest that the assembly and/or the vacuolar targeting of the peripheral subunits of the yeast vacuolar H(+)-
ATPase
depend on the presence of all three of the 69-, 60-, and 17-kDa subunits. The 100-kDa subunit can be transported to the vacuole independently of the peripheral membrane subunits as long as the 17-kDa subunit is present; but in the absence of the 17-kDa subunit, the 100-kDa subunit appears to be both unstable and incompetent for transport to the vacuole.
...
PMID:Assembly and targeting of peripheral and integral membrane subunits of the yeast vacuolar H(+)-ATPase. 153 Sep 31
Mutations that cause loss of acidity in the vacuole (lysosome) of Saccharomyces cerevisiae were identified by screening colonies labeled with the fluorescent, pH-sensitive, vacuolar labeling agent, 6-carboxyfluorescein. Thirty nine vacuolar pH (Vph-) mutants were identified. Four of these contained mutant alleles of the previously described PEP3, PEP5, PEP6 and PEP7 genes. The remaining mutants defined eight complementation groups of vph mutations. No alleles of the
VAT2
or TFP1 genes (known to encode subunits of the vacuolar H(+)-
ATPase
) were identified in the Vph- screen. Strains bearing mutations in any of six of the VPH genes failed to grow on medium buffered at neutral pH; otherwise, none of the vph mutations caused notable growth inhibition on standard yeast media. Expression of the vacuolar protease, carboxypeptidase Y, was defective in strains bearing vph4 mutations but was apparently normal in strains bearing any of the other vph mutations. Defects in vacuolar morphology at the light microscope level were evident in all Vph- mutants. Strains that contained representative mutant alleles of the 17 previously described PEP genes were assayed for vacuolar pH; mutations in seven of the PEP genes (including PEP3, PEP5, PEP6 and PEP7) caused loss of vacuolar acidity.
...
PMID:Genes required for vacuolar acidity in Saccharomyces cerevisiae. 162 5
