Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Schizosaccharomyces pombe nuclear gene, atp2, encoding the beta subunit of the mitochondrial ATP synthase, was sequenced and found to contain a 1575-bp open reading frame. Two adjacent transcription-initiation sites were found at positions 34 and 44 nucleotides upstream of the translation-initiation codon. The deduced polypeptide sequence was composed of 525 amino acid residues (molecular mass = 56875 Da). The mature polypeptide starts at residue 45 (molecular mass = 51,685 Da), indicating the presence of a presequence of 44 residues, presumably involved in mitochondrial targeting. The atp2 mutant B59-1 [Boutry, M. & Goffeau, A. (1982) Eur. J. Biochem. 125, 471-477] and its related revertant allele R4-3 [Jault, J. M., Di Pietro, A., Falson, P., Gautheron, D. C., Boutry, M. & Goffeau, A. (1989) Biochem. Biophys. Res. Commun. 158, 392-399] were also cloned and sequenced. A single nonsense mutation, CAG (Gln170)----TAG (stop) in mutant B59-1, became a missense mutation, TAG (stop)----TAC (Tyr) in revertant R4-3. Gln170 is located between the first and second elements belonging to the nucleotide-binding site. Its substitution by a tyrosine residue increases the enzyme affinity towards ADP, the amount of endogenous nucleotides and the apparent negative cooperativity for ATPase activity.
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PMID:Beta subunit of mitochondrial F1-ATPase from the fission yeast. Deduced sequence of the wild type protein and identification of a mutation that increases nucleotide binding. 183 60

Phosgene is a toxic gas that is widely used in modern industry, and its inhalation can cause severe pulmonary edema. There is no effective clinical treatment because the mechanism of phosgene-induced pulmonary edema still remains unclear. Many studies have demonstrated that the Na(+)/K(+)-ATPase plays a critical role in clearing pulmonary edema and the inhibition of Na(+)/K(+)-ATPase protein expression has been found in many other pulmonary edema models. In the present study, after the mice were exposed to phosgene, there was serious pulmonary edema, indicating the dysfunction of the ATPases in mice. However, in vitro enzyme study showed that there were increases in the activities of the Na(+)/K(+)-ATPase and Ca(2+)-ATPase. Further investigation showed that the ATP content and mitochondrial respiratory control ratio (RCR) in the lungs decreased significantly. The oxidative stress product, malondialdehyde (MDA), increased while the antioxidants (GSH, SOD, and TAC) decreased significantly. These results indicate that mitochondrial respiration is the target of phosgene. The dysfunction of ATPases due to impaired mitochondrial respiration may be a new mechanism of phosgene-induced pulmonary edema.
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PMID:The dysfunction of ATPases due to impaired mitochondrial respiration in phosgene-induced pulmonary edema. 1816 70

Loss of stability and integrity of large membrane protein complexes as well as their aggregation in a non-lipidic environment are the major bottlenecks to their structural studies. We have tested C(12)H(25)-S-poly-Tris-(hydroxymethyl)acrylamidomethane (H(12)-TAC) among many other detergents for extracting the yeast F(1)F(0) ATP-synthase. H(12)-TAC was found to be a very efficient detergent for removing the enzyme from mitochondrial membranes without altering its sensitivity towards specific ATP-synthase inhibitors. This extracted enzyme was then solubilized by either dodecyl maltoside (DDM), H(12)-TAC or fluorinated surfactants such as C(2)H(5)-C(6)F(12)-C(2)H(4)-S-poly-Tris-(hydroxymethyl)acrylamidomethane (H(2)F(6)-TAC) or C(6)F(13)-C(2)H(4)-S-poly-Tris-(hydroxymethyl)acrylamidomethane (F(6)-TAC), two surfactants exhibiting a comparable polar head to H(12)-TAC but bearing a fluorinated hydrophobic tail. Preparations from enzymes purified in the presence of H(12)-TAC were found to be more adapted for AFM imaging than ATP-synthase purified with DDM. Keeping H(12)-TAC during the Ni-NTA IMAC purification step or replacing it by DDM at low concentrations did not however allow preserving enzyme activity, while fluorinated surfactants H(2)F(6)-TAC and F(6)-TAC were found to enhance enzyme stability and integrity as indicated by sensitivity towards inhibitors. ATPase specific activity was higher with F(6)-TAC than with H(2)F(6)-TAC. When enzymes were mixed with egg phosphatidylcholine, ATP-synthases purified in the presence of H(2)F(6)-TAC or F(6)-TAC were more stable upon time than the DDM purified enzyme. Furthermore, in the presence of lipids, an activation of ATP-synthases was observed that was transitory for enzymes purified with DDM, but lasted for weeks for ATP-synthases isolated in the presence of molecules with Tris polyalcoholic moieties. Relipidated enzymes prepared with fluorinated surfactants remained highly sensitive towards inhibitors, even after 6 weeks.
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PMID:Hydrogenated and fluorinated surfactants derived from Tris(hydroxymethyl)-acrylamidomethane allow the purification of a highly active yeast F1-F0 ATP-synthase with an enhanced stability. 1982 Oct 35