EC:1.9.3.1 - FACTA Search

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Query: EC:1.9.3.1 (cytochrome oxidase)
8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To evaluate the participation of proteins derived from mitochondrial genes in the adaptive response of skeletal muscle to increased contractile activity, we administered chloramphenicol (CAP; 200-1,000 mg.kg-1.day-1), an inhibitor of translation from mitochondrial ribosomes, to adult rabbits undergoing electrical stimulation of the tibialis anterior muscle of one hind limb. In unmedicated animals, 10 days of electrical stimulation increased maximum velocity (Vmax) of cytochrome oxidase and citrate synthase by 214 +/- 17 and 201 +/- 16% (P less than 0.01). In a dose-dependent manner, CAP abolished activity-induced increases in cytochrome oxidase Vmax, suggesting that augmented mitochondrial protein synthesis is necessary for the adaptive response of enzymes that require protein subunits encoded by mitochondrial genes. However, CAP failed to inhibit activity-induced changes in Vmax of enzymes derived exclusively from nuclear genes (citrate synthase and aldolase). CAP also failed to inhibit activity-induced increases in mRNA transcribed from the nuclear genes encoding beta-F1 ATPase or myoglobin, or from the mitochondrial genes encoding 12S rRNA, 16S rRNA, or cytochrome b. These latter findings suggest that mitochondrial translation products do not participate in pretranslational regulation of these nuclear or mitochondrial genes in response to changes in contractile activity of skeletal muscle.
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PMID:Effects of inhibition of mitochondrial protein synthesis in skeletal muscle. 289 13

The wheat mitochondrial gene for apocytochrome b (CYB) has been identified by its hybridization to a yeast CYB probe and its nucleotide sequence has been determined. The wheat CYB sequence predicts a cytochrome b apoprotein of 398 amino acids; it is almost identical to that of maize but has ten additional amino acids at the carboxy terminus. No introns are present in the wheat CYB gene, but an internal segment of the gene is repeated at another genomic location. Transcript analysis reveals a single wheat CYB mRNA of approximately 2.4 kb with a long untranslated leader. Sequences upstream of the CYB coding region are very similar in wheat and maize but the stretch proposed to be a ribosome binding site in maize is not conserved in wheat. The corresponding leader regions of the wheat mitochondrial mRNAs for cytochrome oxidase subunits I and II also lack complementarity to the 3'-end of the small subunit rRNA. We conclude that alternative signals are involved in the initiation of translation in plant mitochondria.
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PMID:The wheat mitochondrial gene for apocytochrome b: absence of a prokaryotic ribosome binding site. 298 49

Transcripts for six Leishmania tarentolae maxicircle structural genes (cytochrome oxidase subunits I, II and III, cytochrome b, human mitochondrial unidentified reading frames 4 and 5) and several unidentified open reading frames were mapped, and the locations of the 5' ends determined by primer runoff analysis. All genes studied here are transcribed from the same strand as the 12S and 9S ribosomal RNAs except for the cytochrome oxidase subunit I gene. In two cases (ORF3 and ORF4, ORF5 and ORF6), a single transcript covers two contiguous overlapping reading frames. The 5' ends of the RNAs are located 20-64 nt from the putative translation initiation codons. Primary transcripts from a mitochondrial RNA preparation were 5' end-labeled with guanylyltransferase and alpha -32P-GTP; the major labeled species comigrated with the 12S and 9S mitochondrial rRNAs, and in addition there were at least four higher molecular weight labeled species.
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PMID:Mapping and 5' end determination of kinetoplast maxicircle gene transcripts from Leishmania tarentolae. 299 21

To clarify the functional adaptability of mitochondria in the regenerating liver, the concentrations of respiratory components, hepatic energy charge levels, cytochrome oxidase activity, and phosphorylative activity were studied in mitochondria obtained from regenerating liver of rats treated with chloramphenicol (CAP). In the hepatectomized groups with CAP treatment, a dose-dependent decrease occurred in the concentrations of cytochrome a(+ a3), cytochrome b, cytochrome c + c1, flavoprotein, and pyridine nucleotide. Cytochrome oxidase activity and phosphorylative activity per milligram of mitochondrial protein also decreased dose dependently in CAP-treated hepatectomized groups, with a significant increase in these values per unit of cytochrome a(+ a3). Hepatic energy charge levels significantly decreased in the hepatectomized groups. However, no significant differences were seen among the hepatectomized groups. However, no significant differences were seen among the hepatectomized groups with or without CAP treatment. Our results suggest that hepatic energy charge is maintained at the same relative level by a compensatory enhancement in phosphorylative capacity associated with cytochrome oxidase activity per unit of cytochrome a(+ a3), in spite of a remarkable decrease in the concentrations of respiratory components.
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PMID:Changes in oxidative phosphorylation, adenylate energy charge, and respiratory components in chloramphenicol-treated regenerating rat liver. 300 51

The anthraquinones emodin (1,3,delta-trihydroxy-6-methylanthraquinone) and emodinanthrone (1,3,8-trihydroxy-6-methylanthrone) inhibited respiration-driven solute transport at micromolar concentrations in membrane vesicles of Escherichia coli. This inhibition was enhanced by Ca ions. The inhibitory action on solute transport is caused by inhibition of electron flow in the respiratory chain, most likely at the level between ubiquinone and cytochrome b, and by dissipation of the proton motive force. The uncoupling action was confirmed by studies on the proton motive force in beef heart cytochrome oxidase proteoliposomes. These two effects on energy transduction in cytoplasmic membranes explain the antibiotic properties of emodin and emodinanthrone.
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PMID:Inhibition of electron transfer and uncoupling effects by emodin and emodinanthrone in Escherichia coli. 301 34

Two Bradyrhizobium japonicum cytochrome mutants were obtained by Tn5 mutagenesis of strain LO and were characterized in free-living cultures and in symbiosis in soybean root nodules. One mutant strain, LO501, expressed no cytochrome aa3 in culture; it had wild-type levels of succinate oxidase activity but could not oxidize NADH or N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD). The cytochrome content of LO501 root nodule bacteroids was nearly identical to that of the wild type, but the mutant expressed over fourfold more bacteroid cytochrome c oxidase activity than was found in strain LO. The Tn5 insertion of the second mutant, LO505, had a pleiotropic effect; this strain was missing cytochromes c and aa3 in culture and had a diminished amount of cytochrome b as well. The oxidations of TMPD, NADH, and succinate by cultured LO505 cells were very similar to those by the cytochrome aa3 mutant LO501, supporting the conclusion that cytochromes c and aa3 are part of the same branch of the electron transport system. Nodules formed from the symbiosis of strain LO505 with soybean contained no detectable amount of leghemoglobin and had no N2 fixation activity. LO505 bacteroids were cytochrome deficient but contained nearly wild-type levels of bacteroid cytochrome c oxidase activity. The absence of leghemoglobin and the diminished bacterial cytochrome content in nodules from strain LO505 suggest that this mutant may be deficient in some aspect of heme biosynthesis.
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PMID:Tn5-induced cytochrome mutants of Bradyrhizobium japonicum: effects of the mutations on cells grown symbiotically and in culture. 302 19

Cytochrome oxidation-reduction responses to two mitochondrial electron transport inhibitors, carbon monoxide (CO) and cyanide (CN), were studied in the intact brains of fluorocarbon-circulated rats. In vivo reflectance spectrophotometry indicated that cortical b-type cytochromes (564 nm) were highly resistant to reduction by CN in the presence of O2 but showed reduction responses to the administration of 1-5% CO in 90% O2. In contrast, cyanide-sensitive cytochromes aa3 (605 nm) and c + c1 (551 nm) did not increase their reduction levels during exposure to 5% CO in 90% O2. The in vivo CO-mediated b-cytochrome reduction responses did not occur after pretreatment with the cytochrome b inhibitor, antimycin A. Transmission spectrophotometry of superfused hemoglobin-free rat brain slices confirmed cortical b-type cytochromes to be CN-resistant in the presence of O2. Another cytochrome absorbing at 445 nm also was resistant to reduction by 1-mM cyanide in vitro, but it could be reduced anaerobically. The reduced 445-nm cytochrome bound CO in the presence of cyanide. We postulate that this CN-resistant CO binding component might account for in vivo cytochrome aa3-CO interactions and directly or indirectly modulate cytochrome b reduction responses to CO. In any event, the spectral data indicate different primary tissue target sites for CO and CN in living rat brain and also suggest different bioenergetic consequences of exposure to the two agents.
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PMID:Differences in brain cytochrome responses to carbon monoxide and cyanide in vivo. 303 87

bI4 maturase encoded by the fourth intron of the yeast mitochondrial cytochrome b gene, controls the splicing of both the fourth intron of the cytochrome b gene and the fourth intron of the gene encoding subunit I of cytochrome oxidase. It has been shown previously that a cytoplasmically translated hybrid protein composed of the pre-sequence of subunit 9 of Neurospora ATPase fused to a part of the bI4 maturase can be guided to mitochondria where it could compensate maturase deficiencies. This in vivo complementation of maturase mutants can be easily estimated by restoration of respiration. This work examines the efficiency of different bI4 maturase constructions to restore respiration in different yeast maturase-deficient strains. It is shown that the N-terminal end of the bI4 maturase plays a crucial role in the maturase activity. Moreover, the 12 N-terminal amino acids of the mitochondrial outer membrane protein constitute the most efficient mitochondrial targeting sequence in this system. Surprisingly enough, it was found that the cytoplasmically translated bI4 maturase containing the 254 C-terminal amino acid coded by the intron open reading frame can complement maturase mutations without any added mitochondrial-targeting sequence.
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PMID:Efficient splicing of two yeast mitochondrial introns controlled by a nuclear-encoded maturase. 303 91

To obtain more information about the composition of the respiratory chain under different growth conditions and about the regulation of electron-transfer to several oxidases and reductases, ubiquinol oxidase complexes were partially purified from membranes of Paracoccus denitrificans cells grown in carbon-source-limited aerobic, nitrate-limited anaerobic and oxygen-limited chemostat cultures. The isolated enzymes consisted of cytochromes bc1, c552 and aa3. In comparison with the aerobic ubiquinol oxidase complex, the oxygen- and nitrate-limited ones contained, respectively, less and far less of the cytochrome aa3 subunits and the anaerobic complex also contained lower amounts of cytochrome c552. In addition, extra haem-containing polypeptides were present with apparent Mr of 14,000, 30,000 and 45,000, the former one only in the anaerobic and the latter two in both the anaerobic and oxygen-limited preparations. This is the first report describing four different membrane-bound c-type cytochromes. The potentiometric and spectral characteristics of the redox components in membrane particles and isolated ubiquinol oxidase fractions were determined by combined potentiometric analysis and spectrum deconvolution. Membranes of nitrate- and oxygen-limited cells contained extra high-potential cytochrome b in comparison with the membranes of aerobically grown cells. No difference was detected between the three isolated ubiquinol oxidase complexes. Aberrances with already published values of redox potentials are discussed.
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PMID:Isolation and characterization of ubiquinol oxidase complexes from Paracoccus denitrificans cells cultured under various limiting growth conditions in the chemostat. 303 12

The respiratory systems of the mother cells and forespores of Bacillus cereus were compared throughout the maturation stages (III to VI) of sporulation. The results indicated that both cell compartments contain the same assortment of oxidoreductases and cytochromes. However membrane fractions from young forespores were clearly distinct from those of the mother cell, i.e., lower content of cytochrome aa3, lower cytochrome c oxidase activity, higher concentration of cytochrome o, and a lower sensitivity of the respiration to the inhibiting effect of cyanide. This suggests that the cyanide-resistant pathway contributes more importantly to forespore respiratory activity than to activity in the mother cell compartment. During the maturation stages, the forespore NADH oxidase activity declined faster than in the mother cells. Other activities studied decreased steadily in both cell compartments. These findings together with the analysis of the kinetics of NADH-dependent reduction of cytochromes in the mature spore membranes indicated an impairment of electron flow between NADH dehydrogenase and cytochrome b. This impairment could be overcome by the addition of menadione.
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PMID:Respiratory systems of the Bacillus cereus mother cell and forespore. 309 18

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