UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Horse and tuna cytochrome c synthetic peptides 39-53 can equally well stimulate a cytochrome c specific T cell hybridoma. The amino acid sequence of the two peptides differs mainly for the presence of a helix-breaking proline and a helix-forming glutamic acid in position 44. Circular dichroism studies of these two peptides revealed that their conformation could be drastically depending on the solvent used. These data place some limits on the correlation between structural data and biological activity.
Mol Immunol 1990 Mar
PMID:Lack of correlation between structural properties and biological activity of two cross-reacting cytochrome c T cell epitopes as determined by circular dichroism measurements. 169 66

Dipolar paramagnetic shifts for protons of yeast iso-1-cytochrome c have been calculated by using an optimized g-tensor and the X-ray crystallographic coordinates of the reduced form of yeast iso-1-cytochrome c [Louie, G. V., & Brayer, G. D. (1990) J. Mol. Biol. 214, 527-555]. The calculated values are compared with the observed paramagnetic shift determined from over 450 nonequivalent protons that have been assigned in both oxidation states [Gao, Y., Boyd, J., Williams, R. J. P., & Pielak, G. J. (1990) Biochemistry 29, 6994-7003]. There is good agreement between the calculated and the experimental data with a few exceptions. This indicates that, overall, the solution structures must be very similar in both the reduced and oxidized states in solution as is the case in crystals. The differences between observed and calculated shift values for the molecule in solution are most readily explained by slight movement of the heme and certain changes in diamagnetic shift due to small rearrangements of a few residues and some considerable changes in a few hydrogen bonds. It is also known that small differences exist between the structures of the two oxidation states in crystals but the hydrogen-bond changes are not so easily observed there. Structural changes from nuclear magnetic resonance data are in reasonable agreement with those deduced from crystallography, but additional information is clearly available concerning changes in hydrogen bonding.
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PMID:Comparison of reduced and oxidized yeast iso-1-cytochrome c using proton paramagnetic shifts. 184 77

One of the nuclear-coded subunits of yeast cytochrome c oxidase is specified by a gene family composed of two genes, COX5a and COX5b. These genes are regulated differentially by oxygen and encode isoforms of subunit V, designated Va and Vb, which have only 66% primary sequence identity. Yeast cells require one or the other isoform for a functional cytochrome c oxidase (Trueblood, C. E., and Poyton, R. O. (1987) Mol. Cell Biol. 7, 3520-3526). To determine if these isoforms of subunit V alter the catalytic properties of holocytochrome c oxidase, we have analyzed various aspects of cytochrome c oxidase function in intact yeast cells that produce only one type of isoform. From measurements of room temperature turnover numbers and low temperature rates of ligand binding, single turnover cytochrome c oxidation, and internal electron transfer (heme a oxidation), we have found that isozymes which incorporate the Vb isoform have both higher turnover rates and higher rates of heme a oxidation than isozymes which incorporate Va. These findings support the conclusion that the isoforms of subunit V modulate cytochrome c oxidase activity in vivo and suggest that they do so by altering the rates of one or more intramolecular electron transfer reactions.
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PMID:The isoforms of yeast cytochrome c oxidase subunit V alter the in vivo kinetic properties of the holoenzyme. 184 16

Cytochrome c-oxidase type aa3 (EC 1.9.3.1) was purified to homogeneity from vegetative Bacillus cereus by ion-exchange and hydroxylapatite chromatography in the presence of Triton X-100. Gel filtration analysis suggested a dimeric structure apparently 172 kDa in size; however, only a monomer of 81 kDa was detected when analysed by non-denaturing gel electrophoresis. Denaturing gel electrophoresis analysis of the protein showed the presence of two subunits (51 and 30 kDa). Atomic absorption and visible spectroscopy showed typical aa3 redox centres with haem a iron and copper in a ratio of 22 nmol and 35 ng-atom per mg protein, respectively. No haem c was found associated with the purified enzyme in the conditions reported here. Oxidase activity was fully reconstituted by phospholipids in the presence of N,N,N',N'-tetramethyl-p-phenylenediamine or reduced yeast cytochrome c (but not horse cytochrome c) as electron donors. This activity was abolished by cyanide and carbon monoxide.
Mol Microbiol 1991 Jan
PMID:Purification and characterization of two-subunit cytochrome aa3 from Bacillus cereus. 184 7

Further genetic evidence is provided here that Bradyrhizobium japonicum possesses a mitochondria-like electron-transport pathway: 2[H]----UQ----bc1----c----aa3----O2. Two Tn5-induced mutants, COX122 and COX132, having cytochrome c oxidase-negative phenotypes, were obtained and characterized. Mutant COX122 was defective in a novel gene, named cycM, which was responsible for the synthesis of a c-type cytochrome with an Mr of 20,000 (20K). This 20K cytochrome c appeared to catalyse electron transport from the cytochrome bc1 complex to the aa3-type terminal oxidase and, unlike mitochondrial cytochrome c, was membrane-bound in B. japonicum. The Tn5 insertion of mutant COX132 was localized in coxA, the structural gene for subunit I of cytochrome aa3. This finding also led to the cloning and sequencing of the corresponding wild-type coxA gene that encoded a 541-amino-acid protein with a predicted Mr of 59,247. The CoxA protein shared about 60% sequence identity with the cytochrome aa3 subunit I of mitochondria. The B. japonicum cycM and coxA mutants were able to fix nitrogen in symbiosis with soybean (Fix+). In contrast, mutants described previously which lacked the bc1 complex did not develop into endosymbiotic bacteroids and were thus Fix-. The data suggest that a symbiosis-specific respiratory chain exists in B. japonicum in which the electrons branch off at the bc1 complex.
Mol Microbiol 1990 Dec
PMID:Genetic analysis of the cytochrome c-aa3 branch of the Bradyrhizobium japonicum respiratory chain. 196 17

While several proteins, including beta-lactamase, cytochrome c and apomyoglobin, are maximally unfolded at pH 2 by HCl in the absence of salt, the addition of anions, either from salt or acid, co-operatively induces the unfolded proteins to refold to a molten globule state, because anions bind preferentially to the compact molten globule state compared to the extended unfolded state. To study the role of the anion-dependent conformational transition at neutral pH, we synthesized a model polypeptide of 51 amino acid residues, consisting of tandem repeats of a Lys-Lys-Leu-Leu sequence and containing a turn sequence, Asn-Pro-Gly, at the center of the molecule. The model polypeptide showed no significant conformation by circular dichroism under conditions of low salt at neutral pH. However, addition of anions, either from salt or acid, induced the folding transition to an alpha-helical conformational state. The order of effectiveness of various anions in inducing the folding transition was consistent with the series of anions in inducing the molten globule of the acid-denatured protein. This suggests that the helical state of the model polypeptide is equivalent to the molten globule state. At pH values above 9, the model polypeptide also took an alpha-helical conformation, which was very similar to that induced by anions. On the basis of the chloride and pH-dependent conformational transitions, a phase diagram for the conformational states was constructed. The phase diagram was explained simply by assuming that the conformational transition is linked to the proton and the anion bindings to a limited number of amino groups and that anions bind only to the protonated groups.
J Mol Biol 1991 Mar 20
PMID:Anion and pH-dependent conformational transition of an amphiphilic polypeptide. 201 Sep 16

We show here that SNF1 and SSN6 are required for derepression of the glucose-repressible yeast genes COX6 and CYC1, which encode the mitochondrial proteins cytochrome c oxidase subunit VI and iso-1-cytochrome c, respectively. In an snf1 mutant genetic background, the transcription of both COX6 and CYC1 continued to be repressed after cells were shifted into derepressing media. In an ssn6 mutant genetic background, both COX6 and CYC1 were expressed constitutively at high levels in repressing media. SSN6 acted epistatically to SNF1 in the regulation of both cytochrome genes. These findings are similar to previous findings on the effects of SNF1 and SSN6 on SUC2 expression in Saccharomyces cerevisiae and are consistent with a model proposing that SNF1 exerts its effect through SSN6 on COX6 and CYC1.
Mol Cell Biol 1990 Mar
PMID:Release of two Saccharomyces cerevisiae cytochrome genes, COX6 and CYC1, from glucose repression requires the SNF1 and SSN6 gene products. 215 83

We have determined the nucleotide (nt) sequence of the 7.5-kb COR segment that encompasses a cluster of six genes (CYC1, UTR1, UTR3, OSM1, tRNA(Gly) and RAD7) located on chromosome X of the yeast Saccharomyces cerevisiae. This sequence revealed five open reading frames and a tRNA gene which correspond in position, size and orientation to the transcripts previously identified by Barry et al. [Mol. Cell. Biol. 7 (1987) 632-638]. The extensively studied CYC1 gene encodes iso-1-cytochrome c; the UTR1 and UTR3 genes encode dispensible proteins whose functions are unknown; the OSM1 gene encodes a protein required for growth on hypertonic media; the tRNA(Gly) gene encodes a glycine tRNA; and the RAD7 gene encodes a protein required for repair of UV-induced damage. The OSM1 protein contains a signal sequence for secretion and a region similar to GTP-binding domains. The RAD7 protein displays 5'-untranslated elements similar to those of the stress-inducible gene UB14. The nt sequence upstream from the tRNA(Gly) gene contains a diverged copy of the sigma repeated element. This cluster of COR genes appears to have an ancestral relationship with the cluster of ARC genes on chromosome V.
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PMID:Nucleotide sequence of the COR region: a cluster of six genes in the yeast Saccharomyces cerevisiae. 215 27

The bioactivity of an inhaled particulate is likely to be influenced significantly by the adsorption of proteins and lipids from the fluid lining the respiratory tract. We have shown previously in vitro that the presence of immunoglobulin G, a protein constituent of the lining fluid, significantly and specifically enhances the response of the guinea pig alveolar macrophage to chrysotile, but not crocidolite, asbestos. In order to understand the differential response of the guinea pig alveolar macrophage to chrysotile and crocidolite, as well as to obtain a better understanding of the factors that determine the adsorption of proteins onto asbestos, we have quantitated the adsorption of model proteins, including IgG, onto asbestos. The apparent surface density to which a given protein adsorbed was found to be influenced significantly by the surface charge of the asbestos, by the net protein charge, i.e., its isoelectric point (pI), and most dramatically, by the presence of other proteins. Thus, for example, even when guinea pig IgG (gpIgG; pI approximately 8.5) and bovine serum albumin (BSA; pI = 4.8) were present together at a high molar ratio of BSA to gpIgG, gpIgG was selectively adsorbed on negatively charged crocidolite asbestos. An analogous result was found for the adsorption of gpIgG and cytochrome c (CYT; pI = 10) on positively charged chrysotile asbestos, i.e., even at high molar ratios of CYT to gpIgG, gpIgG was selectively adsorbed. This latter result provides an explanation for the differential bioactivities of chrysotile and crocidolite asbestos previously noted in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)
Am J Respir Cell Mol Biol 1990 May
PMID:Modification of asbestos bioactivity for the alveolar macrophage by selective protein adsorption. 216 Feb 55

Ammonium sulfate fractionation of a Saccharomyces cerevisiae whole-cell extract yielded a preparation which carried out correct and efficient endonucleolytic cleavage and polyadenylation of yeast precursor mRNA substrates corresponding to a variety of yeast genes. These included CYC1 (iso-1-cytochrome c), HIS4 (histidine biosynthesis), GAL7 (galactose-1-phosphate uridyltransferase), H2B2 (histone H2B2), PRT2 (a protein of unknown function), and CBP1 (cytochrome b mRNA processing). The reaction processed these pre-mRNAs with varying efficiencies, with cleavage and polyadenylation exceeding 70% in some cases. In each case, the poly(A) tail corresponded to the addition of approximately 60 adenosine residues, which agrees with the usual length of poly(A) tails formed in vivo. Addition of cordycepin triphosphate or substitution of CTP for ATP in these reactions inhibited polyadenylation but not endonucleolytic cleavage and resulted in accumulation of the cleaved RNA product. Although this system readily generated yeast mRNA 3' ends, no processing occurred on a human alpha-globin pre-mRNA containing the highly conserved AAUAAA polyadenylation signal of higher eucaryotes. This sequence and adjacent signals used in mammalian systems are thus not sufficient to direct mRNA 3' end formation in yeast. Despite the lack of a highly conserved nucleotide sequence signal, the same purified fraction processed the 3' ends of a variety of unrelated yeast pre-mRNAs, suggesting that endonuclease cleavage and polyadenylation may produce the mature 3' ends of all mRNAs in S. cerevisiae.
Mol Cell Biol 1990 Jun
PMID:RNA processing in vitro produces mature 3' ends of a variety of Saccharomyces cerevisiae mRNAs. 216 May 81

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