YME1/YPR024W Literature Guide 
Other names published for YME1: OSD1, YTA11, YPR024W
YME1 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
YME1 - Primary Literature (35)
| Reference | Other Genes Addressed |
|---|---|
| Alex D, et al. (2012) Amino acid-derived 1,2-benzisothiazolinone derivatives as novel small-molecule antifungal inhibitors: identification of potential genetic targets. Antimicrob Agents Chemother 56(9):4630-9 |
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| Levy SF, et al. (2012) Bet hedging in yeast by heterogeneous, age-correlated expression of a stress protectant. PLoS Biol 10(5):e1001325 |
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| Schreiner B, et al. (2012) Role of the AAA protease Yme1 in folding of proteins in the intermembrane space of mitochondria. Mol Biol Cell 23(22):4335-46 |
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| Short MK, et al. (2012) The yeast magmas ortholog pam16 has an essential function in fermentative growth that involves sphingolipid metabolism. PLoS One 7(7):e39428 |
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| Claypool SM, et al. (2011) Barth syndrome mutations that cause tafazzin complex lability. J Cell Biol 192(3):447-62 |
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| Hori A, et al. (2011) Mitochondrial fusion increases the mitochondrial DNA copy number in budding yeast. Genes Cells 16(5):527-44 |
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| Ottosson LG, et al. (2010) Sulfate Assimilation Mediates Tellurite Reduction and Toxicity in Saccharomyces cerevisiae. Eukaryot Cell 9(10):1635-1647 |
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| Potting C, et al. (2010) Regulation of mitochondrial phospholipids by Ups1/PRELI-like proteins depends on proteolysis and Mdm35. EMBO J 29(17):2888-98 |
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| Dunn CD, et al. (2008) Mgr3p and Mgr1p are adaptors for the mitochondrial i-AAA protease complex. Mol Biol Cell 19(12):5387-97 |
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| Francis BR, et al. (2007) Mutations in the Atp1p and Atp3p subunits of yeast ATP synthase differentially affect respiration and fermentation in Saccharomyces cerevisiae. J Bioenerg Biomembr 39(2):127-44 |
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| Graef M, et al. (2007) Substrate recognition by AAA+ ATPases: distinct substrate binding modes in ATP-dependent protease Yme1 of the mitochondrial intermembrane space. Mol Cell Biol 27(7):2476-85 |
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| Hwang DK, et al. (2007) Tim54p connects inner membrane assembly and proteolytic pathways in the mitochondrion. J Cell Biol 178(7):1161-75 |
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| Nebauer R, et al. (2007) The phosphatidylethanolamine level of yeast mitochondria is affected by the mitochondrial components Oxa1p and Yme1p. FEBS J 274(23):6180-90 |
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| Palermo V, et al. (2007) Apoptosis and aging in mitochondrial morphology mutants of S. cerevisiae. Folia Microbiol (Praha) 52(5):479-83 |
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| Dunn CD, et al. (2006) A genomewide screen for petite-negative yeast strains yields a new subunit of the i-AAA protease complex. Mol Biol Cell 17(1):213-26 |
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| Graef M and Langer T (2006) Substrate specific consequences of central pore mutations in the i-AAA protease Yme1 on substrate engagement. J Struct Biol 156(1):101-8 |
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| Rainey RN, et al. (2006) A new function in translocation for the mitochondrial i-AAA protease Yme1: import of polynucleotide phosphorylase into the intermembrane space. Mol Cell Biol 26(22):8488-97 |
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| Kambacheld M, et al. (2005) Role of the novel metallopeptidase Mop112 and saccharolysin for the complete degradation of proteins residing in different subcompartments of mitochondria. J Biol Chem 280(20):20132-9 |
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| Fleming JA, et al. (2002) Complementary whole-genome technologies reveal the cellular response to proteasome inhibition by PS-341. Proc Natl Acad Sci U S A 99(3):1461-6 |
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| Kominsky DJ, et al. (2002) Genetic and biochemical basis for viability of yeast lacking mitochondrial genomes. Genetics 162(4):1595-604 |
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| Klanner C, et al. (2001) MAP-1 and IAP-1, two novel AAA proteases with catalytic sites on opposite membrane surfaces in mitochondrial inner membrane of Neurospora crassa. Mol Biol Cell 12(9):2858-69 |
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| Mollapour M and Piper PW (2001) The ZbYME2 gene from the food spoilage yeast Zygosaccharomyces bailii confers not only YME2 functions in Saccharomyces cerevisiae, but also the capacity for catabolism of sorbate and benzoate, two major weak organic acid preservatives. Mol Microbiol 42(4):919-30 |
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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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| Leonhard K, et al. (1999) Chaperone-like activity of the AAA domain of the yeast Yme1 AAA protease. Nature 398(6725):348-51 |
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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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| Campbell CL and Thorsness PE (1998) Escape of mitochondrial DNA to the nucleus in yme1 yeast is mediated by vacuolar-dependent turnover of abnormal mitochondrial compartments. J Cell Sci 111 ( Pt 16)():2455-64 |
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| Casari G, et al. (1998) Spastic paraplegia and OXPHOS impairment caused by mutations in paraplegin, a nuclear-encoded mitochondrial metalloprotease. Cell 93(6):973-83 |
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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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| Weber ER, et al. (1996) Biochemical and functional analysis of the YME1 gene product, an ATP and zinc-dependent mitochondrial protease from S. cerevisiae. Mol Biol Cell 7(2):307-17 |
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