Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.14 (ATP synthase)
 7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transcript levels of nuclear and mitochondrial genes involved in oxidative phosphorylation were quantified in human myoblasts and myotubes cultured from biopsies of patients harboring either heteroplasmic point mutation or deletion of mitochondrial DNA. The transcript patterns were determined by two different methodologies, competitive reverse-transcription polymerase chain reaction and classical Northern blot analysis, both referred to the mitochondrial to nuclear DNA ratio. In myoblasts from the patients with MELAS (myopathy, encephalopathy, lactic acidosis, and stroke-like episodes) and KSS (Kearns-Sayre) syndromes, both methodologies revealed an increase of mtDNA transcript levels. A higher level of the nuclear ATP synthase beta transcript was observed in the MELAS patient cells and could be the consequence of a feedback effect of the mitochondrial DNA mutation. Moreover, the nuclear and mitochondrial transcript accumulation is more pronounced after myoblast differentiation. Thus, the OXPHOS expression is specifically altered in patients with mitochondrial diseases. The competitive RT-PCR, a rapid and sensitive technique, could be applied to investigation of mitochondrial myopathies.
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PMID:Quantification of OXPHOS gene transcripts during muscle cell differentiation in patients with mitochondrial myopathies. 988 18

The impact of point mutations in mitochondrial tRNA genes on the amount and stability of respiratory chain complexes and ATP synthase (OXPHOS) has been broadly characterized in cultured skin fibroblasts, skeletal muscle samples, and mitochondrial cybrids. However, less is known about how these mutations affect other tissues, especially the brain. We have compared OXPHOS protein deficiency patterns in skeletal muscle mitochondria of patients with Leigh (8363G>A), MERRF (8344A>G), and MELAS (3243A>G) syndromes. Both mutations that affect mt-tRNA(Lys) (8363G>A, 8344A>G) resulted in severe combined deficiency of complexes I and IV, compared to an isolated severe defect of complex I in the 3243A>G sample (mt-tRNA(LeuUUR). Furthermore, we compared obtained patterns with those found in the heart, frontal cortex, and liver of 8363G>A and 3243A>G patients. In the frontal cortex mitochondria of both patients, the patterns of OXPHOS deficiencies differed substantially from those observed in other tissues, and this difference was particularly striking for ATP synthase. Surprisingly, in the frontal cortex of the 3243A>G patient, whose ATP synthase level was below the detection limit, the assembly of complex IV, as inferred from 2D-PAGE immunoblotting, appeared to be hindered by some factor other than the availability of mtDNA-encoded subunits.
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PMID:The impact of mitochondrial tRNA mutations on the amount of ATP synthase differs in the brain compared to other tissues. 1831 67

Mitochondrial diseases associated with mutations within mitochondrial genome are a subgroup of metabolic disorders since their common consequence is reduced metabolic efficiency caused by impaired oxidative phophorylation and shortage of ATP. Although the vast majority of mitochondrial proteins (approximately 1500) is encoded by nuclear genome, mtDNA encodes 11 subunits of respiratory chain complexes, 2 subunits of ATP synthase, 22 tRNAs and 2 rRNAs. Up to now, more than 250 pathogenic mutations have been described within mtDNA. The most common are point mutations in genes encoding mitochondrial tRNAs such as 3243A-->G and 8344T-->G that cause, respectively, MELAS (mitochondrial encephalopathy, lactic acidosis and stroke-like episodes) or MIDD (maternally-inherited diabetes and deafness) and MERRF (myoclonic epilepsy with ragged red fibres) syndromes. There have been also found mutations in genes encoding subunits of ATP synthase such as 8993T-->G substitution associated with NARP (neuropathy, ataxia and retinitis pigmentosa) syndrome. It is worth to note that mitochondrial dysfunction can also be caused by mutations within nuclear genes coding for mitochondrial proteins.
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PMID:[Diseases caused by mutations in mitochondrial DNA]. 2191 24