EC:1.6.5.3 - FACTA Search

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Query: EC:1.6.5.3 (complex I)
8,901 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report here the isolation, mapping, and genomic organization of the human NDUFA1 gene, which is a component of NADH:ubiquinone oxidoreductase (complex I). The NDUFA1 cDNA clone and associated genomic cosmid clones were isolated by reciprocal probing of an arrayed human heart cDNA library with a X-chromosome cosmid library and were mapped to Xq24. The NDUFA1 gene, which is highly expressed in human cardiac and skeletal muscle, has an open reading frame of 70 amino acids and shows 80% homology to the bovine MWFE subunit of complex I. By primer extension, the major and minor transcription initiation sites were identified, 99 and 141 nucleotides upstream of the translation initiator ATG, respectively. The NDUFA1 gene is composed of 3 exons and spans about 5.0 kb of genomic DNA. The 5' region of the NDUFA1 gene (approximately 450-bp fragment) lacks conventional TATA and CAAT boxes, but it contains several potential binding sites for transcription factors including SP-1, AP-2, NF1, NRF2-like, APRRE, CRE, MyoD1, CArG, MEF-2, and BRE.
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PMID:Isolation, mapping, and genomic structure of an X-linked gene for a subunit of human mitochondrial complex I. 893 39

Bovine NADH:ubiquinone oxidoreductase (complex 1) of the mitochondrial respiratory chain consists of about 36 nuclear-encoded subunits. We review the current knowledge of the 15 human complex I subunits cloned so far, and report the 598-bp cDNA sequence, the chromosomal localization and the tissue expression of an additional subunit, the B17 subunit. The cDNA open reading frame of B17 comprises 387 bp and encodes a protein of 128 amino acids (calculated Mr 15.5 kDa). There is 82.7% and 78.1% homology, respectively, at the cDNA and amino acid level with the bovine counterpart. The gene of the B17 subunit has been mapped to chromosome 2. Multiple-tissue dot-blots showed ubiquitous expression of the mRNA with relatively higher expression in tissues known for their high energy demand. Of these, kidney showed the highest expression. Mutational analysis of the subunit revealed no mutations or polymorphisms in 20 patients with isolated enzymatic complex I deficiency in cultured skin fibroblasts.
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PMID:Molecular characterization and mutational analysis of the human B17 subunit of the mitochondrial respiratory chain complex I. 976 Feb 12

The MWFE polypeptide of mammalian complex I (the proton-translocating NADH-quinone oxidoreductase) is 70 amino acids long, and it is predicted to be a membrane protein. The NDUFA1 gene encoding the MWFE polypeptide is located on the X chromosome. This polypeptide is 1 of approximately 28 "accessory proteins" identified in complex I, which is composed of 42 unlike subunits. It was considered accessory, because it is not one of the 14 polypeptides making up the core complex I; a homologous set of 14 polypeptides can make a fully functional proton-translocating NADH-quinone oxidoreductase in prokaryotes. One MWFE mutant has been identified and isolated from a collection of respiration-deficient Chinese hamster cell mutants. The CCL16-B2 mutant has suffered a deletion that would produce a truncated and abnormal MWFE protein. In these mutant cells, complex I activity is reduced severely (<10%). Complementation with hamster NDUFA1 cDNA restored the rotenone-sensitive complex I activity of these mutant cells to approximately 100% of the parent cell activity. Thus, it is established that the MWFE polypeptide is absolutely essential for an active complex I in mammals.
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PMID:The NDUFA1 gene product (MWFE protein) is essential for activity of complex I in mammalian mitochondria. 1020 Feb 66

NDUFA1 is one of the 36 nuclear genes encoding subunits of the mitochondrial complex I involved in the respiratory chain. The human NDUFA1 has been cloned, completely sequenced and mapped to Xq24. In the present study, we searched for sequence variations in NDUFA1 as causative defects in complex I deficiency using genomic DNA of 152 patients with various clinical phenotypes. The patient sample consisted of 54 patients (46 male and 8 female) with Leber heriditary optic neuropathy (LHON) from 48 unrelated families from Germany and 98 patients (72 male and 26 female) with biochemically proven complex I deficiency including Leigh syndrome. Patient DNA was used to amplify all three exons, including the exon/intron boundaries and the promoter region of NDUFA1 for heteroduplex analysis and direct sequencing. In the 152 patients tested, no mutation was found that could be related to any of the disease phenotypes included. However, three single-nucleotide polymorphisms (SNPs) located in the promoter region (SNP G/C at nt -71 and SNP T/C at nt -189) and in intron 1 (SNP T/G nt 1454) were discovered. Allele frequencies of the SNPs were estimated in a German and Estonian control population and compared to complex I-deficient patients. There was no significant difference between the control population, the LHON patients, or the severely affected patients with complex I deficiency, excluding an association of the polymorphisms with the diseases. Our results suggest that mutations in NDUFA1 do not cause the gender difference observed in clinically severe and complex phenotypes with complex I deficiency.
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PMID:Sequence variations in the NDUFA1 gene encoding a subunit of complex I of the respiratory chain. 1128 78

A serendipitous observation led to the first characterization of a respiration-deficient Chinese hamster mutant cell line. It has guided the design of an enrichment scheme for the isolation of additional mutant cell lines. Several complementation groups were identified with mutations affecting complex I. The X-linked NDUFA1 gene encoding the MWFE protein represents one group. Several mutant alleles isolated independently are described that yield very low activities and demonstrate that the MWFE protein is essential for activity. A phylogenetic sequence analysis of this highly conserved protein has directed attention to species-specific differences that make the primate MWFE protein inactive in hamster cells. Based on such comparisons, mutant alleles made by site-directed mutagenesis were expressed in a null mutant and reduced complex I activities were observed, with the mutant protein assembled into the complex. These and other mutants promise to be valuable for structure-function analyses, especially in conjunction with a high-resolution structure to be expected in the future. The possibility for transgenic and knock-in mice as models for mitochondrial diseases is being explored.
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PMID:Molecular genetics of the mammalian NADH-ubiquinone oxidoreductase. 1169 34

Human NADH CoQ oxidoreductase is composed of a total of 43 subunits and has been demonstrated to be a major site for the production of superoxide by mitochondria. Incubation of rat heart mitochondria with ATP resulted in the phosphorylation of two mitochondrial membrane proteins, one with a M(r) of 6 kDa consistent with the NDUFA1 (MWFE), and one at 18kDa consistent with either NDUFS4 (AQDQ) or NDUFB7 (B18). Phosphorylation of both subunits was enhanced by cAMP derivatives and protein kinase A (PKA) and was inhibited by PKA inhibitors (PKAi). When mitochondrial membranes were incubated with pyruvate dehydrogenase kinase, phosphorylation of an 18kDa protein but not a 6kDa protein was observed. NADH cytochrome c reductase activity was decreased and superoxide production rates with NADH as substrate were increased. On the other hand, with protein kinase A-driven phosphorylation, NADH cytochrome c reductase was increased and superoxide production decreased. Overall there was a 4-fold variation in electron transport rates observable at the extremes of these phosphorylation events. This suggests that electron flow through complex I and the production of oxygen free radicals can be regulated by phosphorylation events. In light of these observations we discuss a potential model for the dual regulation of complex I and the production of oxygen free radicals by both PKA and PDH kinase.
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PMID:Control of oxygen free radical formation from mitochondrial complex I: roles for protein kinase A and pyruvate dehydrogenase kinase. 1186 82

The MWFE protein (70 amino acids) is highly conserved in evolution, but the human protein (80% identical to hamster) does not complement a null mutation in Chinese hamster cells. We have identified a small protein segment where significant differences exist between rodents and primates, illustrating very specifically the need for compatibility of the nuclear and mitochondrial genomes in the assembly of complex I. The segment between amino acids 39 and 46 appears to be critical for species-specific compatibility. Amino acid substitutions in this region were tested that caused a reduction of activity of the hamster protein or converted the inactive human protein into a partially active one. Such mutations could be useful in making mice with partial complex I activity as models for mitochondrial diseases. Their potential as dominant negative mutants was explored. More deleterious mutations in the NDUFA1 gene were also characterized. A conservative substitution, R50K, or a short C-terminal deletion makes the protein completely inactive. In the absence of MWFE, no high molecular weight complex was detectable by Blue Native-gel electrophoresis. The MWFE protein itself is unstable in the absence of assembled mitochondrially encoded integral membrane proteins of complex I.
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PMID:Species-specific and mutant MWFE proteins. Their effect on the assembly of a functional mammalian mitochondrial complex I. 1193 7

Optic nerve degeneration is a feature common to diseases with mutations in genes that encode complex I of the respiratory chain. Vulnerability of this central nervous system tract is a mystery, because of the paucity of animal models used to investigate effects of the mutated DNA in tissues rather than isolated in cultured cells. Using a ribozyme designed to degrade the mRNA encoding a critical nuclear-encoded subunit gene of complex I (NDUFA1), we tested whether oxidative phosphorylation deficiency can recapitulate the optic neuropathy of mitochondrial disease. Injection of adenoassociated virus expressing this ribozyme led to axonal destruction and demyelination, the hallmarks of Leber hereditary optic neuropathy.
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PMID:Suppression of complex I gene expression induces optic neuropathy. 1255 86

A nuclear gene encoding a 9.8 kDa subunit of complex I, the homologue of mammalian MWFE protein, was identified in the genome of Neurospora crassa. The gene was cloned and inactivated in vivo by the generation of repeat-induced point mutations. Fungal mutant strains lacking the 9.8 kDa polypeptide were subsequently isolated. Analyses of mitochondrial proteins from mutant nuo9.8 indicate that the membrane and peripheral arms of complex I fail to assemble. Respiration of mutant mitochondria on matrix NADH is rotenone-insensitive, confirming that the 9.8 kDa protein is required for the assembly and activity of complex I. We found a similarity between the MWFE homologues and the C-terminal part of the nqrA subunit of bacterial Na(+)-translocating NADH:quinone oxidoreductases (Na(+)-NQR), suggesting a link between proton-pumping and sodium-pumping NADH dehydrogenases.
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PMID:The 9.8 kDa subunit of complex I, related to bacterial Na(+)-translocating NADH dehydrogenases, is required for enzyme assembly and function in Neurospora crassa. 1275 76

We developed a conditional complex I assembly system in a Chinese hamster fibroblast mutant line, CCL16-B2, that does not express the NDUFA1 gene (encoding the MWFE protein). In this mutant, a hemagglutinin (HA) epitope-tagged MWFE protein was expressed from a doxycycline-inducible promoter. The expression of the protein was absolutely dependent on the presence of doxycycline, and the gene could be turned off completely by removal of doxycycline. These experiments demonstrated a key role of MWFE in the pathway of complex I assembly. Upon induction the MWFE.HA protein reached steady-state levels within 24 h, but the appearance of fully active complex I was delayed by another approximately 24 h. The MWFE appeared in a precomplex that probably includes one or more subunits encoded by mtDNA. The fate of MWFE and the stability of complex I were themselves very tightly linked to the activity of mitochondrial protein synthesis and to the assembly of subunits encoded by mtDNA (ND1-6 and ND4L). This novel conditional system can shed light not only on the mechanism of complex I assembly but emphasizes the role of subunits previously thought of as "accessory." It promises to have broader applications in the study of cellular energy metabolism and production of reactive oxygen species and related processes.
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PMID:Development and characterization of a conditional mitochondrial complex I assembly system. 1472 84

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