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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)
In vertebrate organisms, the molecular mechanisms by which extracellular signals regulate mitochondrial function and biogenesis are largely unknown. We have previously identified multiple cis-acting elements in both cytochrome c and
cytochrome oxidase
subunit IV (COXIV) genes that are likely targets for the regulated expression of respiratory chain components. We now demonstrate that cytochrome c but not COXIV mRNA is induced by cAMP through a mechanism involving transcriptional activation. Maximal induction occurs within 3 h and does not require de novo protein synthesis. The differential response of these genes is mediated by two distinct cAMP response elements (CREs) in the cytochrome c promoter region. Both elements function independently to drive cAMP-dependent expression from a heterologous promoter and within the proper cytochrome c promoter context. In addition, the binding properties of both elements to nuclear factors were characterized by competition
DNase I
footprinting, methylation interference footprinting, site-directed mutagenesis, and UV-induced DNA-protein cross-linking. The results are all consistent with the specific recognition of both CREs by CRE binding protein (CREB). A highly purified preparation of recombinant CREB formed a specific complex with each of the cytochrome c CREs identical to that formed with a crude nuclear fraction. In addition, the trans-activation of cytochrome c gene expression by recombinant CREB and protein kinase A in transfected cells was completely dependent on functional CREs within the promoter. These results establish that respiratory chain gene expression can be regulated directly by cAMP through a CREB-dependent signal transduction pathway.
...
PMID:Differential regulation of respiratory chain subunits by a CREB-dependent signal transduction pathway. Role of cyclic AMP in cytochrome c and COXIV gene expression. 827 81
During aerobic respiration, Bacillus subtilis utilizes three terminal oxidases, cytochromes aa3, caa3, and bd. Cytochrome bd is encoded by the cydABCD operon. We report here the first identification of a regulator for the cydABCD operon, YdiH. While working with DeltaresDE mutant strains, we identified colonies which contained suppressor mutations (cmp) which bypassed the requirement for ResD for all phenotypes not associated with
cytochrome aa3
or caa3. Mapping identified a class of Tn10 insertions which were close to the cmp locus (Tn10-2) and a second class (Tn10-1) which was inserted in cydD, a gene which appears to be essential to the cmp phenotype. Sequencing of the cmp loci from four independent DeltaresDE cmp isolates yielded four loss-of-function alleles of ydiH, a gene encoding a protein with homology to AT-rich DNA-binding proteins. Additionally, we determined that cytochrome bd was aberrantly expressed in the DeltaresDE cmp background. Together these data led to the hypothesis that YdiH serves as a negative regulator of cydABCD expression, a hypothesis supported by both gel-shift and
DNase I
footprinting analyses. YdiH protected the cydA promoter region at three 22-bp repeats located in the long 5' untranslated region (193 bp). Induction of the cydABCD operon in a DeltaresDE background showed that expression of the terminal oxidase bd was responsible for the bypass phenotype observed in a DeltaresDE cmp strain, indicating that cytochrome bd expression complemented the loss of cytochromes aa3 and caa3 in the DeltaresDE strain.
...
PMID:Bacillus subtilis YdiH is a direct negative regulator of the cydABCD operon. 1523 91
Pseudomonas putida KT2440 contains a branched aerobic respiratory chain with multiple terminal oxidases. Their relative proportion varies according to environmental conditions. The role of the oxygen-responsive ANR global regulator on expression of these terminal oxidases was analysed. During exponential growth in a highly aerated complete medium, ANR activated expression of the Cbb3-1 terminal oxidase (equivalent to Pseudomonas aeruginosa Cbb3-2), but had little role on expression of other terminal oxidases. In early stationary phase, or under oxygen limitation, inactivation of the anr gene led to increased expression of the bo(3)-type cytochrome (Cyo) and cyanide-insensitive (CIO) terminal oxidases, and to a much lower expression of Cbb3-1.
DNase I
footprints identified ANR binding sites at the promoters for these oxidases. Their location suggests that ANR is a transcriptional activator of Cbb3-1 genes and a repressor of CIO genes, consistent with expression data. ANR binding sites at the promoter for Cyo genes suggests a complex regulation in combination with other factors. Therefore, ANR coordinates expression of Cyo, CIO and Cbb3-1, but does not influence
cytochrome aa3
and Cbb3-2 terminal oxidases under the conditions analysed. Functional assays showed that Cyo has a leading role during aerobic exponential growth, while Cbb3-1 becomes very important in stationary phase.
...
PMID:The coordinate regulation of multiple terminal oxidases by the Pseudomonas putida ANR global regulator. 1834 82
