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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)
Optical changes in d- and b-type cytochromes, following initiation of the reaction of
cytochrome oxidase
d with O2, have been studied in cells and derived membrane particles from oxygen-limited cultures of Escherichia coli K12. At successively higher temperatures between -132 and -88 degrees C, the first scan after photolysis of the Co-liganded, reduced oxidase in the presence of O2 and a slow increase in absorbance at 675 to 680 nm due to an unidentified chromophore. A similar sequence occurs when a single sample is scanned repetitively at -91 degrees C. At higher temperatures, oxidation of at least two spectrally distinct cytochromes b occurs. Selective photolysis of the cytochrome d-CO complex with a He-Ne laser shows that neither of these cytochromes is the CO-binding cytochrome o436. In all oxidation states examined, no absorbance in the 720 to 860 nm region was observed; it is concluded that both cytochromes d and o436 lack redox-active copper that has an environment similar to the copper(s) in mitochondrial cytochrome c oxidase. The amount of cytochrome d650 (but not the amount of reduced cytochrome o436) formed after photolysis is directly proportional to the oxygen concentration in the sample at the time of freeze trapping. The results are discussed in relation to the composition and mechanism of action of cytochrome d.
J
Gen
Microbiol 1983 May
PMID:The reaction with oxygen of cytochrome oxidase (cytochrome d) in Escherichia coli K12: optical studies of intermediate species and cytochrome b oxidation at sub-zero temperatures. 631 42
Petite deletion mapping has been carried out for the Oli 2 region of the mitochondrial genome of Saccharomyces cerevisiae to produce a fine structure genetic map. Previously unlocated mit- mutants together with the drug resistant loci Oli 2 and Oss 1 have been ordered between the
cytochrome oxidase
and apocytochrome b genes. As a result of this study a series of isogenic p- clones have been isolated spanning the Oli 2 region.
Mol
Gen
Genet 1984
PMID:Genetics of oxidative phosphorylation: petite deletion mapping of the Oli 2 region of the mitochondrial genome of Saccharomyces cerevisiae. 631 47
The effect of cyanide on the physiology of lactate- and oxygen-limited Enterobacter aerogenes NCTC 10336 was studied in chemostat culture (D = 0.1 h-1). In the absence of cyanide, the molar growth yield from oxygen (YO2) under oxygen limitation was 60% of the carbon-limited value. A similar decrease in yield was observed in a lactate-limited culture (excess oxygen) which was continuously fed low concentrations of potassium cyanide. The cultures with the lower growth yields possessed respiratory systems less sensitive to inhibition by cyanide. This was particularly marked in cultures grown in the presence of cyanide. Increased cyanide resistance was associated with an increase in the concentration of a
cytochrome oxidase
tentatively identified as a d-type and the appearance of additional cytochromes tentatively identified as b-type.
J
Gen
Microbiol 1983 Jan
PMID:The effects of cyanide on the growth and respiration of Enterobacter aerogenes in continuous culture. 683
The genetic and physiological properties of two nuclear mutants of Paramecium tetraurelia affecting mitochondrial properties, and first screened as resistant to tetrazolium (TTC) are described. The mutant TTC64-1R is strongly deficient in cytochrome c and the mutant TTC66pR is partially deficient in
cytochrome aa3
; both mutants display cyanide insensitive respiration in exponential growth phase. In the double mutant TTC64-1R -- TTC66pR/TTC64-1R -- TTC66pR the deficiency in
cytochrome aa3
due to the TTC66pR mutation is suppressed. The mutation TTC64-1R does not suppress
cytochrome aa3
deficiencies due to mitochondrial mutations, but does interact with another nuclear mutation, cl1, (compatible only with mitochondria deficient in
cytochrome oxidase
) in such a way that the double mutant TTC64-1R -- cl1/TTC64-1R -- cl1 displays a normal amount of
cytochrome aa3
. The possible mechanisms and physiological significance of these suppressive effects are discussed.
Mol
Gen
Genet 1980
PMID:Genetic interactions in the control of mitochondrial functions in Paramecium. I. Interactions between nuclear genes. 693 1
In the preceding paper of this series (Dujardin et al. 1980 a) we described general methods of selecting and genetically characterizing suppressor mutations that restore the respiratory capacity of mit- mitochondrial mutations. Two dominant nuclear (NAM1-1 and NAM2-1) and one mitochondrial (mim2-1) suppressors are more extensively studied in this paper. We have analysed the action spectrum of these suppressors on 433 mit- mutations located in various mitochondrial genes and found that they preferentially alleviate the effects of mutations located within intron open reading frames of the cob-box gene. We conclude that these suppressors permit the maturation of cytochrome b mRNA by restoring the synthesis of intron encoded protein(s) catalytically involved in splicing i.e. mRNA-maturase(s) (cf. Lazowska et al. 1980). NAM1-1 is allele specific and gene non-specific; it suppresses mutations located within different introns. NAM2-1 and mim2-1 are intron-specific: they suppress mutations all located in the same (box7) intron of the cob-box gene. Analyses of cytochrome absorption spectra and mitochondrial translation products of cells in which the suppressors are associated with various other mit- mutations show that the suppressors restore cytochrome b and/or
cytochrome oxidase
(cox I) synthesis, as expected from their growth phenotype. This suppression is, however, only partial: some new polypeptides characteristic of the mit- mutations can be still detected in the presence of suppressor. Interestingly enough when box7 specific suppressors NAM2-1 and mim2-1 are associated with a complete cob-box deletion (leading to a total deficiency of cytochrome b and oxidase) partial restoration of cox I synthesis is observed while cytochrome b is still totally absent. These results show that in strains carrying NAM2-1 or mim2-1 the presence of cytochrome b gene is no longer required for the expression of the oxi3 gene pointing out to the possibility of a mutational switch-on of silent genes, whether mitochondrial, mim2-1, or nuclear, NAM2-1. This switch-on would permit the synthesis of an active maturase acting as a substitute for the box7 maturase in order to splice the cytochrome b and oxidase mRNAs.
Mol
Gen
Genet 1981
PMID:Long range control circuits within mitochondria and between nucleus and mitochondria. II. Genetic and biochemical analyses of suppressors which selectively alleviate the mitochondrial intron mutations. 703 98
Intact cells harvested from O2-limited batch cultures of Escherichi coli K12 contained high levels of the CO-binding cytochromes d, o and a1. In photodissociation difference spectra (i.e. photolysed minus reduced + CO), a peak at 436 nm and a trough at 415 nm have been assigned to an 0-type cytochrome, and not cytochrome d, by photolysis with white light and an He-Ne laser. The reaction of reduced cytochrome o436 with O2 at sub-zero temperatures involved O2 binding to give intermediate(s) with spectral characteristics similar to those of the reduced oxidase-CO complex. The reaction with O2 at successively higher temperatures (range -98 to -59 degrees C) was accompanied by the formation of a trough (with reference to the CO-liganded state) at 436 nm which eventually shifted to 432 nm, indicative of the oxidized form. The apparent energy of activation at low temperatures was 44.6 kJ mol-1 (10.7 kcal mol-1). There was a linear relationship between the rate of formation of the oxygen compound and the O2 concentration up to about 0.5 mM. The second-order constant for this reaction was 10.9 M-1 s-1 at 100 degrees C, at least 10-fold greater than for the reaction of cytochrome o432 with O2 in cells from vigorously aerated cultures. The reaction of both types of cytochrome o with O2 was not readily reversible in the light or in the dark and was further distinguished from the reaction with CO by the markedly lower velocity of the CO reaction. Comparisons are drawn between the reactions with O2 of cytochrome(s) o in E. coli from O2-sufficient and O2-limited cultures and of mitochondrial
cytochrome a3
. It is proposed that, like the synthesis of cytochrome d, the formation of cytochrome o436 represents an adaptation of the organism to reduced O2 availability.
J
Gen
Microbiol 1981 Oct
PMID:The reaction of cytochrome o in Escherichia coli K12 with oxygen. Evidence for a spectrally and kinetically distinct cytochrome o in cells from oxygen-limited cultures. 704 May 97
The mitochondrial genome of Chlamydomonas reinhardtii is a 15.8 kb linear DNA molecule present in multiple copies. In crosses, the meiotic products only inherit the mitochondrial genome of the mating type minus (paternal) parent. In contrast mitotic zygotes transmit maternal and paternal mitochondrial DNA copies to their diploid progeny and recombinational events between molecules of both origins frequently occur. Six mitochondrial mutants unable to grow in the dark (dk- mutants) were crossed in various combinations and the percentages of wild-type dk+ recombinants were determined in mitotic zygotes when all progeny cells had become homoplasmic for the mitochondrial genome. In crosses between strains mutated in the COB (apocytochrome b) gene and strains mutated in the COX1 (subunit 1 of
cytochrome oxidase
) gene, the frequency of recombination was 13.7% (+/- 3.2%). The corresponding physical distance between the mutation sites was 4.3 kb. In crosses between strains carrying mutations separated by about 20 bp, a recombinational frequency of 0.04% (+/- 0.02%) was found. Two other mutants not yet characterized at the molecular level were also used for recombinational studies. From these data, a linear genetic map of the mitochondrial genome could be drawn. This map is consistent with the positions of the mutation sites on the mitochondrial DNA molecule and thereby validates the method used to generate the map. The frequency of recombination per physical distance unit (3.2% +/- 0.7% per kilobase) is compared with those obtained for other organellar genomes in yeasts and Chlamydomonas.
Mol
Gen
Genet 1995 Nov 15
PMID:Genetic mapping of mitochondrial markers by recombinational analysis in Chlamydomonas reinhardtii. 750 Sep 40
The effects of nutritional status on thyroxine-induced changes in standard metabolic rate (SMR), and the activity of hepatic
cytochrome oxidase
were examined in the garter snake Thamnophis sirtalis. Twelve snakes were fed ad libitum, and 12 more were fed a maintenance diet, which was half as many fish per gram of body weight as that eaten by ad libitum snakes. Snakes in the first group gained weight during the 3-week treatment, while individual snakes in the second group either maintained their original weight or showed a slight loss (less than 10%). Within each diet treatment, half of the snakes received a 5-mg thyroxine (T4) pellet implant, and half received placebo implants. Plasma [T4] was unchanged by treatment. Plasma [T3] was elevated in T4-supplemented snakes fed ad libitum, but the difference was not statistically significant (P = 0.09). Standard metabolic rate and
cytochrome oxidase
activity at 25 degrees were increased significantly (34 and 24%, respectively) only in the T4-supplemented snakes on the ad libitum diet. Thus, T. sirtalis must be in a positive energy balance for thyroid hormones to have an effect on SMR or hepatic
cytochrome oxidase
activity.
Gen
Comp Endocrinol 1993 Jul
PMID:Thyroxine-induced changes in metabolic rate and cytochrome oxidase activity in Thamnophis sirtalis: effects of nutritional status. 840 92
The respiratory deficient dum-1 mutant of Chlamydomonas reinhardtii fails to grow in the dark because of a terminal 1.5 kb deletion in the linear 15.8 kb mitochondrial genome, which affects the apocytochrome b (CYB) gene. In contrast to the wild type where only mitochondrial genomes of monomer length are observed, the dum-1 genomes are present as a mixture of monomer and dimer length molecules. The mutant dimers appear to result from head-to-head fusions of two deleted molecules. Furthermore, mitochondrial genomes of dum-1 were also found to be unstable, with the extent of the deletion varying among single cell clones from the original mutant population. The dum-1 mutant also segregates, at a frequency of ca. 4% per generation, lethal minute colonies in which the original deletion now extends at least into the adjacent gene encoding subunit four of NAD dehydrogenase (ND4). We have used the dum-1 mutant as a recipient to demonstrate stable mitochondrial transformation in C. reinhardtii employing the biolistic method. After 4 to 8 weeks dark incubation, a total of 22 respiratory competent colonies were isolated from plates of dum-1 cells bombarded with C. reinhardtii mitochondrial DNA (frequency 7.3 x 10(-7)) and a single colony was isolated from plates bombarded with C. smithii mitochondrial DNA (frequency 0.8 x 10(-7)). No colonies were seen on control plates (frequency < 0.96 x 10(-9)). All transformants grew normally in the dark on acetate media; 22 transformants were homoplasmic for the wild-type mitochondrial genome typical of the C. reinhardtii donor. The single transformant obtained from the C. smithii donor had a recombinant mitochondrial genome containing the donor CYB gene and the diagnostic HpaI and XbaI restriction sites in the gene encoding subunit I of
cytochrome oxidase
(
COI
) from the C. reinhardtii recipient. The characteristic deletion fragments of the dum-1 recipient were not detected in any of the transformants.
Mol
Gen
Genet 1993 Jan
PMID:Further characterization of the respiratory deficient dum-1 mutation of Chlamydomonas reinhardtii and its use as a recipient for mitochondrial transformation. 843 70
The Saccharomyces cerevisiae gene ABC1 is required for the correct functioning of the bc1 complex of the mitochondrial respiratory chain. By functional complementation of a S. cerevisiae abc1(-) mutant, we have cloned a Schizosaccharomyces pombe cDNA, whose predicted product is 50% identical to the Abc1 protein. Significant homology is also observed with bacterial, nematode, and even human amino acid sequences of unknown function, suggesting that the Abc1 protein is conserved through evolution. The cloned cDNA corresponds to a single S. pombe gene abc1Sp, located on chromosome II, expression of which is not regulated by the carbon source. Inactivation of the abc1Sp gene by homologous gene replacement causes a respiratory deficiency which is efficiently rescued by the expression of the S. cerevisiae ABC1 gene. The inactivated strain shows a drastic decrease in the bc1 complex activity. a decrease in
cytochrome aa3
and a slow growth phenotype. To our knowledge, this is the first example of the inactivation of a respiratory gene in S. pombe. Our results highlight the fact that S. pombe growth is highly dependent upon respiration, and that S. pombe could represent a valuable model for studying nucleo-mitochondrial interactions in higher eukaryotes.
Mol
Gen
Genet 1996 May 23
PMID:Cloning by functional complementation, and inactivation, of the Schizosaccharomyces pombe homologue of the Saccharomyces cerevisiae gene ABC1. 866 31
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