Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Chlamydomonas reinhardtii strains harboring deletions of the chloroplast atpB 3' inverted repeat (IR) are weakly phototrophic due to reduced accumulation of discrete atpB transcripts and the
chloroplast ATPase
beta-subunit protein. A sequence of 18 guanosine residues, which can impede a 3'-->5'
exoribonuclease
in vitro, is able to substitute for the atpB IR in vivo. Strains containing the poly-guanosine tract in place of the atpB 3' IR are phototrophic and accumulate near wild-type levels of discrete atpB transcripts and the ATPase beta-subunit protein. Because these atpB transcripts contain the 18 guanosine residues, and the poly-guanosine tract is not a terminator of transcription, the accumulation of discrete atpB transcripts is likely the result of impediment of 3'-->5'
exoribonuclease
activity. These findings support a model in which atpB transcripts lacking the 3' IR are degraded by 3'-->5'
exoribonuclease
activity, and demonstrate that the poly-guanosine tract can be used to study chloroplast RNA metabolism in vivo.
...
PMID:A chloroplast transcript lacking the 3' inverted repeat is degraded by 3'-->5' exoribonuclease activity. 875 8
We recently identified polynucleotide phosphorylase (PNPase) as a potential binding partner for the TCL1 oncoprotein. Mammalian PNPase exhibits
exoribonuclease
and poly(A) polymerase activities, and PNPase overexpression inhibits cell growth, induces apoptosis, and stimulates proinflammatory cytokine production. A physiologic connection for these anticancer effects and overexpression is difficult to reconcile with the presumed mitochondrial matrix localization for endogenous PNPase, prompting this study. Here we show that basal and interferon-beta-induced PNPase was efficiently imported into energized mitochondria with coupled processing of the N-terminal targeting sequence. Once imported, PNPase localized to the intermembrane space (IMS) as a peripheral membrane protein in a multimeric complex. Apoptotic stimuli caused PNPase mobilization following cytochrome c release, which supported an IMS localization and provided a potential route for interactions with cytosolic TCL1. Consistent with its IMS localization, PNPase knockdown with RNA interference did not affect mitochondrial RNA levels. However, PNPase reduction impaired mitochondrial electrochemical membrane potential, decreased respiratory chain activity, and was correlated with altered mitochondrial morphology. This resulted in FoF1-
ATP synthase
instability, impaired ATP generation, lactate accumulation, and AMP kinase phosphorylation with reduced cell proliferation. Combined, the data demonstrate an unexpected IMS localization and a key role for PNPase in maintaining mitochondrial homeostasis.
...
PMID:Mammalian polynucleotide phosphorylase is an intermembrane space RNase that maintains mitochondrial homeostasis. 1696 81
