Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A succinic dehydrogenase (SDH) complex has been purified from Triton X-100-solubilized membranes from Bacillus subtilis by precipitation with specific antibody. Radioactively labeled precipitated complex was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by autoradiography of the gels. The complex contained equimolar amounts of three polypeptides with approximate molecular weights of 65,000, 28,000, and 19,000. Five succinic dehydrogenase-negative mutants, belonging to the citF group, contained the 65,000-dalton polypeptide in a soluble form in the cytoplasm. Each 65,000-dalton polypeptide had about one molecule of flavin bound. Another citF mutant, citF11, which lacks the 65,000-dalton polypeptide, contained a membrane-bound 28,000-dalton polypeptide. The wild-type succinic dehydrogenase complex contained cytochrome, probably a cytochrome b. The 19,000-dalton polypeptide is suggested to represent the apoprotein of this cytochrome. The 65,000-dalton and the 28,000-dalton polypeptides are thought to constitute succinic dehydrogenase and to correspond to the flavoprotein and the ironprotein, respectively, as described for succinic dehydrogenase isolated from beef heart mitochondria or Rhodospirillum rubrum chromatophores. The results presented suggest that in B. subtilis succinic dehydrogenase is attached to a cytochrome b in the membrane via the 28,000-dalton (ironprotein) polypeptide.
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PMID:Characterization of a succinate dehydrogenase complex solubilized from the cytoplasmic membrane of Bacillus subtilis with the nonionic detergent Triton X-100. 10 58

The synthesis of cytochromes aa3, b, and c has been investigated during synchronous growth in the yeast, Saccharomyces cerevisiae. These cytochromes increase in concentration continuously throughout each cell cycle, with an approximate doubling in rate during successive cycles. The rates of cytochrome formation are considerably higher in galactose-grown cultures than in cells grown in glucose. Although cytochrome aa3 increases at a continuous rate, its functional counterpart, cytochrome c oxidase, increases in stepwise fashion, with the increments occurring at the beginning of each new cell cycle. Chloramphenicol, a specific inhibitor of intramitochondrial protein synthesis, inhibits the formation of cytochrome aa3 at all stages of the cell cycle, but does not inhibit cytochrome c. Chloramphenicol exhibits a somewhat intermediate effect on cytochrome b synthesis, with transient inhibition occurring only when the drug is added prior to or during the initial part of the first cell cycle. After this time, chloramphenicol had no effect on the rate of cytochrome b synthesis. The data indicate that under our conditions of cell synchrony mitochondrial membrane formation as reflected by increments in mitochondrial cytochromes occurs by continuous accretion of new material throughout the cell cycle. Intramitochondrially synthesized polypeptide products, responsible for the formation of new cytochrome aa3, appear to be synthesized throughout the cell cycle.
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PMID:Cytochrome synthesis in synchronous cultures of the yeast, Saccharomyces cerevisiae. 16 91

When purified bovine cytochrome c1 is digested with trypsin under controlled conditions, the heme polypeptide is preferentially converted from a species of molecular weight 30,600 to a heme polypeptide of molecular weight 29,000. The trypsin sensitive peptide bond is located in the N-terminal region of the cytochrome. Both the reduced and oxidized cytochrome are susceptible to hydrolysis by trypsin at the same locus, but the reduced cytochrome is cleaved at an initial rate approximately twofold greater than the oxidized cytochrome. Membranous cytochrome c1, as occurring in cytochrome b-c1 complex or succinate-cytochrome c reductase complex, is not susceptible to trypsin proteolysis under similar conditions, nor after more extensive treatment of the membranes with trypsin, in spite of the fact that cytochrome c1 presumably comes into contact with cytochrome c at the membrane surface during electron transport. These findings are consistent with a model for the structure of cytochrome c1 in situ in which the cytochrome is an integral membrane protein, located primarily in the membrane continuum, while still having the heme-containing portion of the protein available at the membrane surface for electron transfer to cytochrome c.
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PMID:Controlled digestion with trypsin as a structural probe for the N-terminal peptide of soluble and membranous cytochrome c. 16 81

We have isolated the cytochrome bc1 complex and some of its constituent polypeptides from bakers yeast and have studied its spectroscopy, electrophoresis and amino acid analysis. The isolated complex contained 6 mumol of b heme and approximately 3 mumol of c1 heme per g of protein. The electron paramagnetic resonance spectrum was similar to that of the beef-heart preparation. The complex consisted of 7 polypeptides with mobilities on sodium dodecylsulphate polyacrylamide gel electrophoresis corresponding to Mr 44,000, 40,000, 32,000, 32,000, 17,000, 14,000 and 11,000. One of the polypeptides with Mr 32,000 was identified on sodium dodecylsulphate gels as cytochrome c1 by porphyrin fluorescence. Cytochrome b was isolated from the complex by treating it with guanidine hydrochloride; it had a purity of 20 mumol per g of protein and consisted of a polypeptide with Mr 32,000 plus two minor bands with Mr 14,000 and 11,000. We have isolated the polypeptide of Mr 32,000 from cytochrome b and the polypeptides of Mr 44,000 and 40,000 ("core proteins") from the complex, both by preparative sodium dodecylsulphate gel electrophoresis and determined their amino acid composition. Only the b polypeptide of Mr 32,000 shows the low proportion of polar amino acid residues that is considered typical of membrane proteins.
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PMID:The cytochrome bc1 complex of yeast mitochondria. Isolation and partial characterization of the cytochrome bc1 complex and cytochrome b. 17 21

1. Yeast cells were labelled with radioactive amino acids in the presence of cycloheximide and the cytochrome bc1 complex was isolated from them as described in the preceding paper (Katan, M.B.., Pool, L. & Groot, G.S.P. (1976)Eur. J. Biochem, 65, 95-105). After analysis of this preparation by sodium dodecylsulphate polyacrylamide gel electrophoresis only one band, with an apparent Mr of 32000, was found to have incorporated radioactivity. The amount of label in the band was low, but could be increased approximately 5-fold by preincubating the cells in erythromycin before the labelling period. 2. Cells were labelled in the presence of chloramphenicol and the cytochrome bc1 complex was isolated by (NH4)2SO4 fractionation. Upon electrophoresis in the presence of sodium dodecylsulphate only four of the six bands that belong to the complex were found to have incorporated radioactivity; no radioactivity was found in the bands with an Mr of 40000 and 17000. The same result was obtained after labelling in the presence of acriflavin. If, however, the cytochrome bc1 complex was isolated by immunoprecipitation, all bands were found to have incorporated radioactivity in the presence of chloramphenicol. The amount of radioactivity in the Mr 32000 band was now clearly depressed. 3. It is concluded that of the seven polypeptides of the cytochrome bc1 complex of yeast only one is made on mitochondrial ribosomes. This polypeptide has an Mr of 32000 and is probably associated with cytochrome b.
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PMID:The cytochrome bc) complex of yeast mitochondria. Site of translation of the polypeptides in vivo. 18 45

1) An isolation and purification procedure is reported for an active cytochrome b-c1 complex from Saccharomyces cerevisiae. The complex acts as an antimycin A-sensitive duroquinone-cytochrome c reductase and contains cytochromes b and c1 at a concentration of 8 nmol/mg protein and non-heme iron at a concentration of 15 nmol/mg protein. 2) Difference spectra at room temperature and at 70 degrees K show that the preparation is free from contamination with cytochromes c or aa3. Assays of enzyme activity indicate the absence of any of the other catalytic functions normally associated with the mitochondrial respiratory chain. 3) On dissociation and separation on sodium dodecylsulfate-polyacrylamide gels the complex gives rise to seven bands corresponding to subunit polypeptide molecular weights of 43 000, 40 000, 32 000, 24 000, 22 000, 20 000 and 18 000. These appear in a regular stoichiometry of 1:1:3:1:1:1:1.
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PMID:Structure of a cytochrome b-c 1 complex from Saccharomyces cerevisiae YF. 20 May 45

These studies describe the properties of three mit- mutants designated EM17, EM25, and PZ1, all mapping at two closely linked sites near one of the boundaries of the region of the mitochondrial genome concerned with the specification of cytochrome b. They all exhibit complex phenotypes affecting cytochrome b, cytochrome aa3, and additional polypeptides not found in the wild type. In the case of EM 17 this complexity can be ascribed to the presence of two mutations induced in the course of the initial mutagenic treatment: one, the cob2 mutation proper, is responsible for the loss of cytochrome b which is replaced by an altered, functionally inactive polypeptide, cytochrome b. This polypeptide can be further modified, or even eliminated, by the controlled introduction of another mutation in the cob1 segment of the cob region. The reduction in cytochrome oxidase subunit I, responsible for the effects on cytochrome aa3 and enzymatic activity in EM17, is due to a second (not mit-) mutation that has been located in the par1-proximal segment of the oxi3 region. This second mutation as well as the cob mutation can be overcome, and the respective aspect of wild type function restored to EM17, by recombination with rho- strains retaining the appropriate segment(s) of the wild type genome. The phenotype of the other two mutants is due to a single mutagenic event. This conclusion is confirmed by their ability to restore wild type functions by reversion. The mutation in EM25 appears to be due to a frameshift, which has led to premature chain termination, producing a polypeptide of Mr = 15,000 related to apocytochrome b. This change is accompanied by a decrease in the amount of subunit I of cytochrome oxidase. Revertants fall into three classes: on galactose two produce a polypeptide indistinguishable from apocytochrome b, but vary in its amount, while the third fails to increase apocytochrome b above mutant levels. Production of subunit I is increased but fails to reach wild type levels. Complete restoration of wild type functions can, however, be obtained by recombination of EM25 with rho- (cob2+) strains. Mutation PZ1 results in a complete absence of any polypeptide related to apocytochrome b and of cytochrome oxidase subunit I. These cells produce a novel polypeptide with a Mr = 45,000 not found in the wild type, and unrelated to all its normal polypeptides. Reversion or recombination with rho- (cob2+) strains results in virtually complete restoration of all wild type functions and the elimination of the novel polypeptide.
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PMID:Regulatory interaction between mitochondrial genes. II. Detailed characterization of novel mutants mapping within one cluster in the cob2 region. 21 40

Oxidation factor, a protein required for electron transfer from succinate to cytochrome c in the mitochondrial respiratory chain, has been purified from isolated succinate . cytochrome c reductase complex. Purification of the protein has been followed by a reconstitution assay in which restoration of ubiquinol . cytochrome c reductase activity is proportional to the amount of oxidation factor added back to depleted reductase complex. The purified protein is a homogeneous polypeptide on acrylamide gel electrophoresis in sodium dodecyl sulfate and migrates with an apparent Mr = 24,500. Purified oxidation factor restores succinate . cytochrome c reductase and ubiquinol . cytochrome c reductase activities to depleted reductase complex. It is not required for succinate dehydrogenase nor for succinate . ubiquinone reductase activities of the reconstituted reductase complex. Oxidation factor co-electrophoreses with the iron-sulfur protein polypeptide of ubiquinol . cytochrome c reductase complex. The purified protein contains 56 nmol of nonheme iron and 36 nmol of acid-labile sulfide/mg of protein and possesses an EPR spectrum with the characteristic "g = 1.90" signal identical to that of the iron-sulfur protein of the cytochrome b . c1 complex. In addition, the optimal conditions for extraction of oxidation factor, including reduction with hydrosulfite and treatment of the b . c1 complex with antimycin, are identical to those which facilitate extraction of the iron-sulfur protein from the b . c1 complex. These results indicate that oxidation factor is a reconstitutively active form of the iron-sulfur protein of the cytochrome b . c1 complex first discovered by Rieske and co-workers (Rieske, J.S., Maclennan, D.H., and Coleman, R. (1964) Biochem. Biophys. Res. Commun. 15, 338-344) and thus demonstrate that this iron-sulfur protein is required for electron transfer from ubiquinol to cytochrome c in the mitochondrial respiratory chain.
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PMID:Purification of a reconstitutively active iron-sulfur protein (oxidation factor) from succinate . cytochrome c reductase complex of bovine heart mitochondria. 22 62

Disc electrophoretically homogeneous spinach-chloroplast cytochrome b-6 was found to be a lipoprotein whose redox potential was essentially unchanged during isolation. These results further support the hypothesis of Triton X-100/4 M urea, pH 8, as a useful extracting medium for membrane lipoproteins. Cytochrome b-6 was found to have a heme equivalent dry weight of 1 mol of heme per 60000 g. Of this, 20000 g was lipid-extractable. The molecular weight was 60000 with a partial specific volume of 0.84 ml/g. The protein portion of the molecule (40000) consisted of 1 polypeptide chain of 20000 daltons, 1 of 9600 daltons and 2 of 6600 daltons. A simple lipid composition (relative to the original membrane) was found consisting of 7 mol of chlorophyll a and 6 mol of cardiolipin per mol of cytochrome; these two lipids thus account for about 75-80% of the lipid content. An unidentified minor neutral lipid and minor polar lipid were also detected. At pH 7.0 in the presence of 0.5% Triton X-100, E'-o was -0.080 V, and in the absence of Triton X-100, E'-o was -0.120 V. At pH 8 in 0.5% Triton X-100, E'-o was -0.084 V, thus indicating that the redox potential is independent of pH in the region 7-8. The redox reaction proceeded via a one-electron-transfer.
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PMID:Chloroplast cytochrome b-6. Molecular composition as a lipoprotein. 23 85

A major cytochrome b peptide was purified from yeast mitochondria by a procedure involving solubilization in deoxycholic and cholic acids, ammonium sulfate fractionation, proteolytic digestion, and sucrose gradient centrifugation in the presence of Tween 80. The homogeneity of the purified protein was established by the criteria that the product was spectrally pure and yielded a single band on both sodium dodecyl sulfate polyacrylamide gel electrophoresis, and by gel isoelectric focusing. The purified cytochrome b polypeptide had absorption maxima at 562, 532, and 430 nm in the reduced form and at 525 to 570 nm and 419 nm in the oxidized form. The reduced minus oxidized difference spectra revealed absorption bands at 562, 532, and 430 nm at room temperature and 559, 529, and 429 nm at 77 K, respectively. The heme group was identified as protoheme by formation of the reduced pyridine hemochromogen. Treatment of the reduced form with carbon monoxide affected the absorption spectrum, indicating that the isolated hemoprotein was modified compared to native cytochrome b. The apparent molecular weight of the preparation was 28,000 based on sodium dodecyl sulfate polyacrylamide-gel electrophoresis and 28,800 based on sucrose gradient centrifugation. The isolated cytochrome b polypeptide showed a strong tendency to aggregate.
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PMID:Purification and properties of a major cytochrome b peptide from baker's yeast. 34 14


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