AFG3/YER017C Literature Guide 
Other names published for AFG3: YTA10, AAA family ATPase AFG3, YER017C
AFG3 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Cellular Location
- Function/Process
- Genetic Interactions
- Mutants/Phenotypes
- Regulation of
- Regulatory Role
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
AFG3 - Function/Process (36)
| Reference | Other Genes Addressed |
|---|---|
| Delaney JR, et al. (2013) Stress profiling of longevity mutants identifies Afg3 as a mitochondrial determinant of cytoplasmic mRNA translation and aging. Aging Cell 12(1):156-66 |
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| Augustin S, et al. (2009) An intersubunit signaling network coordinates ATP hydrolysis by m-AAA proteases. Mol Cell 35(5):574-85 |
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| Smith ED, et al. (2008) Quantitative evidence for conserved longevity pathways between divergent eukaryotic species. Genome Res 18(4):564-70 |
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| Duvezin-Caubet S, et al. (2007) OPA1 Processing Reconstituted in Yeast Depends on the Subunit Composition of the m-AAA Protease in Mitochondria. Mol Biol Cell 18(9):3582-3590 |
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| Tatsuta T, et al. (2007) m-AAA protease-driven membrane dislocation allows intramembrane cleavage by rhomboid in mitochondria. EMBO J 26(2):325-35 |
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| Chen X, et al. (2005) Enhanced mitochondrial degradation of yeast cytochrome c with amphipathic structures. Curr Genet 47(2):67-83 |
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| Nolden M, et al. (2005) The m-AAA protease defective in hereditary spastic paraplegia controls ribosome assembly in mitochondria. Cell 123(2):277-89 |
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| Jonson L, et al. (2004) Enhanced peptide secretion by gene disruption of CYM1, a novel protease in Saccharomyces cerevisiae. Eur J Biochem 271(23-24):4788-97 |
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| Korbel D, et al. (2004) Membrane protein turnover by the m-AAA protease in mitochondria depends on the transmembrane domains of its subunits. EMBO Rep 5(7):698-703 |
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| Kyoda K, et al. (2004) DBRF-MEGN method: an algorithm for deducing minimum equivalent gene networks from large-scale gene expression profiles of gene deletion mutants. Bioinformatics 20(16):2662-75 |
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| Atorino L, et al. (2003) Loss of m-AAA protease in mitochondria causes complex I deficiency and increased sensitivity to oxidative stress in hereditary spastic paraplegia. J Cell Biol 163(4):777-87 |
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| Kaser M, et al. (2003) Oma1, a novel membrane-bound metallopeptidase in mitochondria with activities overlapping with the m-AAA protease. J Biol Chem 278(47):46414-23 |
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| Dimmer KS, et al. (2002) Genetic basis of mitochondrial function and morphology in Saccharomyces cerevisiae. Mol Biol Cell 13(3):847-53 |
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| Esser K, et al. (2002) A novel two-step mechanism for removal of a mitochondrial signal sequence involves the mAAA complex and the putative rhomboid protease Pcp1. J Mol Biol 323(5):835-43 |
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| Broadley SA, et al. (2001) Peripheral mitochondrial inner membrane protein, Mss2p, required for export of the mitochondrially coded Cox2p C tail in Saccharomyces cerevisiae. Mol Cell Biol 21(22):7663-72 |
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| Frohlich KU (2001) An AAA family tree. J Cell Sci 114(Pt 9):1601-2 |
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| Lemaire C, et al. (2000) Absence of the mitochondrial AAA protease Yme1p restores F0-ATPase subunit accumulation in an oxa1 deletion mutant of Saccharomyces cerevisiae. J Biol Chem 275(31):23471-5 |
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| Leonhard K, et al. (2000) Membrane protein degradation by AAA proteases in mitochondria: extraction of substrates from either membrane surface. Mol Cell 5(4):629-38 |
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| Shah ZH, et al. (2000) The human homologue of the yeast mitochondrial AAA metalloprotease Yme1p complements a yeast yme1 disruptant. FEBS Lett 478(3):267-70 |
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| Steglich G, et al. (1999) Prohibitins regulate membrane protein degradation by the m-AAA protease in mitochondria. Mol Cell Biol 19(5):3435-42 |
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| Arlt H, et al. (1998) The formation of respiratory chain complexes in mitochondria is under the proteolytic control of the m-AAA protease. EMBO J 17(16):4837-47 |
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| Beilharz T, et al. (1998) A toxic fusion protein accumulating between the mitochondrial membranes inhibits protein assembly in vivo. J Biol Chem 273(52):35268-72 |
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| Savel'ev AS, et al. (1998) ATP-dependent proteolysis in mitochondria. m-AAA protease and PIM1 protease exert overlapping substrate specificities and cooperate with the mtHsp70 system. J Biol Chem 273(32):20596-602 |
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| Glerum DM and Tzagoloff A (1997) Submitochondrial distributions and stabilities of subunits 4, 5, and 6 of yeast cytochrome oxidase in assembly defective mutants. FEBS Lett 412(3):410-4 |
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| Swaffield JC and Purugganan MD (1997) The evolution of the conserved ATPase domain (CAD): reconstructing the history of an ancient protein module. J Mol Evol 45(5):549-63 |
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| Arlt H, et al. (1996) The YTA10-12 complex, an AAA protease with chaperone-like activity in the inner membrane of mitochondria. Cell 85(6):875-85 |
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| Guzelin E, et al. (1996) Afg3p, a mitochondrial ATP-dependent metalloprotease, is involved in degradation of mitochondrially-encoded Cox1, Cox3, Cob, Su6, Su8 and Su9 subunits of the inner membrane complexes III, IV and V. FEBS Lett 381(1-2):42-6 |
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| Leonhard K, et al. (1996) AAA proteases with catalytic sites on opposite membrane surfaces comprise a proteolytic system for the ATP-dependent degradation of inner membrane proteins in mitochondria. EMBO J 15(16):4218-29 |
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| Rep M and Grivell LA (1996) MBA1 encodes a mitochondrial membrane-associated protein required for biogenesis of the respiratory chain. FEBS Lett 388(2-3):185-8 |
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| Rep M, et al. (1996) Promotion of mitochondrial membrane complex assembly by a proteolytically inactive yeast Lon. Science 274(5284):103-6 |
