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)

Rabbit, mouse, and guanaco cytochromes c differ from each other by only two amino acid residues. The identification is described of all of the antigenic determinants of mouse and guanaco cytochrome c that elicit an antibody response in rabbits, and those of the rabbit and guanaco proteins that elicity antibodies in the mouse. All except one of these sites center around single amino acid residue differences between the antigen and the host cytochrome c. The corresponding antibody popylations bind only to the areas of the protein in which the substitutions occur. Such antigenic determinants manifested in rabbits by quanaco and mouse cytochromes c are centered around residues 62 and 89, and residues 44 and 89, respectively. Similarly, the mouse recognizes sites containing residues 44 and 62 in guanaco cytochrome c, and residues 44 and 89 in rabbit cytochrome c. In none of these instances has a change in sequence failed to produce an antibody response. Each of these determinants appears to elicit and bind to its antibody, independently of other determinants present on the protein. In addition, two different autoantigenic responses have been detected. The antibodies produced against the determinant formed by glutamyl residue 62 of the guanaco protein in both rabbits and mice, the cytochromes c of which carry an aspartyl residue in that position, also bind to the aspartyl-containing region but with lower affinity. However, mouse and rabbit cytochrome c also elicit antibodies to the area of residue 62 in rabbits and mice, respectively, and these antibodies still bind more strongly to the glutamyl-than to the aspartyl-containing determinant. This last response occurs only when there are residue substitutions elsewhere in the molecule, because mice and rabbits fail to respond to their own cytochrome c. Antibodies produced in mice against the change from alanyl to valyl residue 44 by rabbit and guanaco cytochromes c also bind to the alanyl-containing determinant, except less tightly than to the valyl region. Conversely, antibodies raised in rabbits against the change from valyl to alanyl residue 44 only bind to this region when it carries an alanine. It is suggested that antigenic determinants that arise as a result of amino acid residue substitutions between the immunizing and the corresponding host protein, without a change in the spatial arrangement of the polypeptide backbone, be termed topographic determinants.
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PMID:Topographic determinants on cytochrome c. I. The complete antigenic structures of rabbit, mouse, and guanaco cytochromes c in rabbits and mice1. 6 79

Cytochromes c have been used as antigens in a murine T-lymphocyte proliferation assay in order to characterize the nature of determinants whose recognition is under immune response (Ir) gene control. The cytochromes are advantagous as antigens because 1) they have well-characterized primary and tertiary structures, 2) they are antigenically simple, differing from mouse cytochrome c at only a small number of amino acid residues, and 3) there exist a large number of evolutionary variants which can be used to locate antigenic sites by cross-stimulation. In the present studies, the T-lymphocyte proliferative response to pigeon cytochrome c was shown to be under the control of two complementing major histocompatibility (MHC)-linked Ir genes in mice of the H-2a and H-2k haplotypes. Mice of the H-2b, H-2d, H-2p, H-2q, H-2s, and H-2u haplotypes were low or nonresponders. Complementation was demonstrated by showing that an F1 hybrid between two nonresponder recombinant strains, B10.A(4R) and B10.A(5R), could respond to pigeon cytochrome c. The determinant on the cytochrome recognized in this immune response was located to the C-terminal portion of the molecule around residues 89 and/or 100. This was shown by the failure of closely related cytochromes from the Pekin duck and chicken to cross-stimulate T lymphocytes immune to pigeon cytochrome; position 89 and 100 carry the only residues different from those in mouse cytochrome c that are unique to pigeon cytochrome among the three bird cytochromes tested. This localization was further substantiated by demonstrating that the cyanogen bromide cleavage-fragment (residues 81-104) from pigeon cytochrome, but not the same fragment from Pekin duck cytochrome, was as good a stimulant of T cells immune to the whole molecule as the intact cytochrome. These results identify the immunogenic site on the molecule as one which differs from mouse cytochrome c by only one or two amino-acid residues. Thus, T-cell immune responses, which are under MHC-linked Ir gene control, are as capable as antibody responses of recognizing subtle differences in protein structure. However, the ability of T cells to respond equally well to stimulation with polypeptide fragments or with the whole molecule suggests either that T-cell recognition involves certain differences from B cell recognition or that in some cases the fragments possess a similar spatial structure to that of the corresponding segment in the native protein.
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PMID:Genetic control of the T-lymphocyte proliferative response to cytochrome c. 8 88

N-bromosuccinimide-cytochromes c (Myer, Y. P. (1972), Biochemistry 11, 4195) and formyl-cytochrome c (Aviram, I and Schejter, A. (1971), Biochim. Biophys. Acta 229, 113) have been chromatographically purified, and the resulting components have been characterized in terms of their structure, conformation, and function. The activity measurements are considered in terms of the oxidizability, as the transference of an electron to solubilized cytochrome c oxidase, and reducibility, as the tendency to accept an electron from NADH-cytochrome c reductase. Conformational characterization has been carried out by absorption measurements, pH-spectroscopic behavior, circular dichroism, thermal denaturation, ionization of phenolic hydroxyls, the tendency to form the CO complex, and autoxidation with molecular oxygen. NBS-cytochrome c yields two major components, the relative proportions of which, with increasing modification of the protein, exhibit a pattern typical of the formation of the two in a consecutive manner. The first product contains the modification of the Trp-59 and Met-65 side chains, and the second contains the added modification of Met-80. The former in both valence states of iron is more or less like the native protein, except for an apparently slightly loosened heme crevice; the latter, as in other modifications involving modification of centrally coordinated Met-80, was found to be in a conformational state characteristic of the native protein with a disrupted central coordination complex, a loosened heme crevice, and small, but finite derangement of the polypeptide conformation. Functionally, the first component reflected 55% of the reducibility property and an unimpaired oxidizability property, while the latter exhibited derangement of both aspects of cytochrome c activity. Formyl-cytochrome c yielded a single component with modification of Trp-59. Conformationally, in both valence states, it is a molecular form with a disrupted central coordination complex, a loosened heme crevice, and gross derangement of the overall protein conformation. It exhibits a minimal reducibility property, 12%, whereas it retains a native-like tendency to transfer an electron to cytochrome c oxidase. The data from the NBS-cytochrome c components are analyzed with reference to the two forms in the earlier studies of the unpurified preparations. The results are found to be in agreement with one another. The selectivity between the reducibility and the oxidizability exhibited by the first NBS component and formyl-cytochrome c, irrespective of significant differences in the conformational and coordinational configurations of the two, has been viewed in light of a two-path, two-function model for oxidoreduction, as well as with reference to conformational and structural requirements for the oxidizability and reducibility properties of the molecule.
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PMID:Conformational and functional studies of chemically modified cytochromes: N-bromosuccinimide- and formyl-cytochromes c. 16 5

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

Cytochrome P-450 has been purified from liver microsomes of phenobarbital-induced rabbits in the presence of ionic and nonionic detergents to concentrations over 17 nmoles per mg of protein. The purified cytochrome P-450 LM gives a single major band on SDS-polyacrylamide gel electrophoresis representing about 90 per cent of the total protein. The polypeptide chain has a molecular weight of about 49,000 daltons. NADPH-cytochrome P-450 reductase has been purified from liver microsomes of phenobarbital-induced rats in the presence of ionic and nonionic detergents to a stage where it catalyzes the reduction of 33,000 nmoles of cytochrome c per min per mg of protein. The ratio of activities toward cytochrome P-450 and cytochrome c is constant throughout purification. The purified reductase contains equimolar amounts of FMN and FAD and gives a single major band on SDA-polyacrylamide gel electrophoresis accounting for about 70 per cent of the total protein; the molecular weight is about 80,000 daltons. The purified cytochrome P-450 is free of cytochrome b5 but contains another electron acceptor, provisionally called Factor C, which is equivalent in amount to the heme present. Two electrons are taken up per molecule of cytochrome P-450 from dithionite or from NADPH in the presence of catalytic amounts of the reductase, and both electrons are readily transferred from the reduced cytochrome P-450 to molecular oxygen or artificial electron acceptors. The reconstituted enzyme system containing purified cytochrome P-450, purified NADPH-cytochrome P-450 reductase, and phosphatidylcholine retains the ability to catalyze the hydroxylation of drugs, fatty acids, hydrocarbons, and aniline in the presence of NADPH and molecular oxygen.
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PMID:Biochemical characterization of highly purified cytochrome P-450 and other components of the mixed function oxidase system of liver microsomal membranes. 16 50

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

Bovine apoadrenodoxin was treated with tetranitromethane to introduce a nitro group into the tyrosyl residue at position 82 of this protein. The degrees of nitration under the best conditions were estimated to be 90% and nearly 100% on the basis of amino acid analysis and the spectrophotometric method, respectively. An amino derivative was prepared by reducing the nitro group with sodium dithionite. The apoadrenodoxin derivatives could be reconstituted to have an iron-sulfur chromophore similar to the native adrenodoxin which contains a 1:1 molar ratio of labile sulfur to iron content and displays absorption peaks at 414 and 450 nm. The enzymatic acitivies of these reconstituted nitro and amino derivatives toward cytochrome c reduction in the presence of adrenodoxin reductase and NADPH were 19 and 7% of native adrenodoxin, respectively. We studied the kinetics of the direct reduction of the reconstituted amino derivative in the presence of NADPH and adrenodoxin reductase under anaerobic conditons. The initial rate of reduction for the amino derivative was 7% of the native adrenodoxin, which is in good agreement with its activity toward cytochrome c reduction. From these results, it is concluded that by modifying the tyrosyl residue at position 82 of the adrenodoxin polypeptide, the electron-transferring activity of the molecule is largely diminished.
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PMID:Studies on NO2-Tyr82and NH2-Tyr82 derivatives of adrenodoxin. Effects of chemical modification on electron transferring activity. 17 89

An assay based upon indirect immunoprecipitation has been developed for yeast cytochrome c and apocytochrome c. The specificity of this assay was demonstrated by its ability to selectively precipitate cytochrome c from an autolysate of yeast cell proteins. Translation of the polypeptide chain of cytochrome c in a wheat germ extract programmed with yeast poly(A) RNA was demonstrated using this immunoprecipitation assay. Translation of poly(A) RNA from yeast strains carrying nonsense mutations in the cyc1 gene yielded in vitro cytochrome c polypeptides which were shorter than the wild type protein by the amount expected for polypeptide chains which had terminated at the nonsense codon. The in vivo rate of cytochrome c synthesis was shown to be 6-fold greater in derepressed cells than in glucose-repressed cells. The 6-fold difference is sufficient to account for the 6-fold higher level of cytochrome c in derepressed than in repressed cells. The level of translatable cytochrome c mRNA is at least 4 times as high in derepressed as in glucose-repressed cells, suggesting that regulation occurs at some step in the synthesis of this messenger.
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PMID:Yeast cytochrome c messenger RNA. In vitro translation and specific immunoprecipitation of the CYC1 gene product. 18 10

Amino acid seauences are proposed for the cytochromes c-555 from Chlorobium thiosulphatophilum and from the Chlorobium limicola component of "Chloropseudomonas ethylica 2K". Each is a sincle polypeptide chain, the former of 86, the latter of 99 residues, and, when aligned so as to give the best match, 47 residues are common to the two sequences. The sequences show some resemblance to those of cytochromes c5 and f. The bacteriochlorophyll a-proteins were also isolated and purified, and their amino acid compositions compared (see the Appendix). There are significant differences in the compositions, but not as great as those found for the cytochromes c-555. The significance of these observations for the taxonomy of the Chlorobiaceae and for the further development of the comparative biochemistry of cytochrome c is discussed. Detailed evidence for the sequences of the cytochromes c-555 has been deposited as Supplementary Publication SUP 50073 (36 pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies may be obtained on the terms given in Biochem. J. (1976) 153, 5.
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PMID:The amino acid sequences of the cytochromes c-555 from two green sulphur bacteria of the genus Chlorobium. 18 12

The amino acid sequence of locust cytochrome c was determined, although the overlap between chymotryptic and tryptic peptides at residues tyrosine-97 and leucine-98 was not observed, owing to an anomalous tryptic break duplicating the chymotryptic digestion. The molecule consists of a single polypeptide chain of 107 residues, homologous with other mitochondrial cytochromes c. In common with other known insect cytochromes c, it possesses a non-acetylated, four-residue tail at the N-terminus relative to glycine-1 of the standard alignment. A molecular phylogeny for 17 species was constructed relating the cytochrome c molecules of Schistocerca gregaria and other invertebrates with those of representative taxonomic groups. Experimental details are given in a supplementary paper deposited as Supplementary Publication SUP 50077 (24 pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies can obtained on the terms indicated in Biochem. J. (1977) 161, 1.
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PMID:The amino acid sequence of cytochrome c from the locust, Schistocerca gregaria Forskal. 19 85


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