Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.1 (Mg2+-ATPase)
 1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 53,000-dalton intrinsic glycoprotein of the sarcoplasmic reticulum was separated from the Ca2+ + Mg2+-ATPase by dissolution with low concentrations of deoxycholate in the presence of 1 M KCl and purified in two successive gel filtration steps. It was aggregated and eluted at the void volume when subjected to gel filtration in the presence or absence of deoxycholate. When subsequently chromatographed in the presence of sodium dodecyl sulfate, the glycoprotein eluted in pure form as a monomer. The glycoprotein contained 48% nonpolar amino acids. It also contained 4 mol of glucosamine and 18 mol of mannose per mol of protein, suggesting that it contained two chains of (GlcNAc)2, (Man)9. The 53,000-dalton glycoprotein was completely removed from deoxycholate extracts of sarcoplasmic reticulum by affinity chromatography on concanavalin A Sepharose. Elution of glycoproteins with alpha-methyl-D-mannoside and deoxycholate resulted in co-purification of the 53,000-dalton glycoprotein and 160,000-dalton glycoprotein previously observed in sarcoplasmic reticulum. The apparent molecular weight of the glycoprotein was reduced from 53,000 to 49,000 after digestion with endo-beta-N-acetylglucosaminidase H (Endo H) and its reactivity with concanavalin A (Con A) was lost. There was no change in molecular weight of the glycoprotein and no diminution of its reactivity with Con A when sealed vesicles of sarcoplasmic reticulum were treated with Endo H. Endo H reduced the molecular weight and the Con A reactivity of the protein when the vesicles were made permeable by detergents. These observations, together with our previous demonstration that the glycoprotein reacts with a cycloheptaamylose-fluorescamine complex in sealed vesicles (Michalak, M., Campbell, K. P., and MacLennan, D. H. (1980) J. Biol. Chem. 255, 1317-1326), show that the glycoprotein is a transmembrane protein. A protein of approximately 53,000 daltons was labeled when the sarcoplasmic reticulum was reacted with the photoaffinity label [32P]8-N3-cAMP. The labeled protein was neither the glycoprotein nor the high affinity calcium-binding protein since it was not sensitive to Endo H and was sensitive to trypsin digestion.
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PMID:Purification and characterization of the 53,000-dalton glycoprotein from the sarcoplasmic reticulum. 626 Aug 6

The state of assembly of the (H+ + K+)-ATPase in purified hog gastric mucosa membranes was studied by target size analysis applied to radiation-induced enzyme inactivation and polypeptide degradation data. Radiation inactivated the Mg2+-ATPase, K+-stimulated ATPase, and p-nitrophenyl phosphatase activities of the membrane preparation with a dose dependence characteristic of a target size of 270,000-daltons. Radiation also bleached the major 100,000-dalton sodium dodecyl sulfate-gel electrophoresis band of this preparation, indicating a radiation-induced degradation. This apparent polypeptide degradation exhibited a dose dependency corresponding to a target size of 250,000 daltons in situ. It is suggested that the gastric ATPase is a trimeric assembly of the 100,000-dalton polypeptides.
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PMID:Target molecular weight of the gastric (H+ + K+)-ATPase functional and structural molecular size. 626 22

Cdc50 is the non-catalytic subunit of the flippase that establishes phospholipid asymmetry in membranes and functions in vesicle-mediated trafficking in Saccharomyces cerevisiae. Here, we have identified the homologous gene CaCDC50 that encodes a protein of 396 amino acids with two conserved transmembrane domains in Candidaalbicans. Deletion of CaCDC50 results in C. albicans cells becoming sensitive to the antifungal drugs azoles, terbinafine and caspofungin, as well as to the membrane-perturbing agent sodium dodecyl sulfate. We also show that CaCDC50 is involved in both endocytosis and vacuolar function. CaCDC50 confers tolerance to high concentrations of cations, although it is not required for osmolar response. Moreover, deletion of CaCDC50 leads to severe defects in hyphal development of C. albicans cells and highly attenuated virulence in the mouse model of systemic infection. Therefore, CaCDC50 regulates cellular responses to antifungal drugs, cell membrane stress, endocytosis, filamentation and virulence in the human fungal pathogen C. albicans.
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PMID:The lipid flippase subunit Cdc50 is required for antifungal drug resistance, endocytosis, hyphal development and virulence in Candida albicans. 3100 89


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