COX1/Q0045 Literature Guide 
Other names published for COX1: OXI3, cytochrome c oxidase subunit 1, Q0045
COX1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- DNA/RNA Sequence Features
- Mapping
- Nucleic Acid Interaction
- RNA Levels and Processing
- Transcription
- Translational Regulation
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
COX1 - RNA Levels and Processing (86)
| Reference | Other Genes Addressed |
|---|---|
| Moreno JI, et al. (2012) Two independent activities define Ccm1p as a moonlighting protein in Saccharomyces cerevisiae. Biosci Rep 32(6):549-57 |
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| Potratz JP, et al. (2011) ATP-dependent roles of the DEAD-box protein Mss116p in group II intron splicing in vitro and in vivo. J Mol Biol 411(3):661-79 |
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| Watts T, et al. (2011) Mne1 Is a Novel Component of the Mitochondrial Splicing Apparatus Responsible for Processing of a COX1 Group I Intron in Yeast. J Biol Chem 286(12):10137-46 |
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| Chou JY, et al. (2010) Multiple Molecular Mechanisms Cause Reproductive Isolation between Three Yeast Species. PLoS Biol 8(7):e1000432 |
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| Fedorova O, et al. (2010) Protein-facilitated folding of group II intron ribozymes. J Mol Biol 397(3):799-813 |
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| Liebeg A, et al. (2010) DEAD-box protein facilitated RNA folding in vivo. RNA Biol 7(6):803-11 |
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| Turk EM and Caprara MG (2010) Splicing of Yeast aI5{beta} Group I Intron Requires SUV3 to Recycle MRS1 via Mitochondrial Degradosome-promoted Decay of Excised Intron Ribonucleoprotein (RNP). J Biol Chem 285(12):8585-94 |
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| Bourges I, et al. (2009) Multiple defects in the respiratory chain lead to the repression of genes encoding components of the respiratory chain and TCA cycle enzymes. J Mol Biol 387(5):1081-91 |
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| Del Campo M, et al. (2009) Unwinding by local strand separation is critical for the function of DEAD-box proteins as RNA chaperones. J Mol Biol 389(4):674-93 |
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| Moreno JI, et al. (2009) Ccm1p/Ygr150cp, a pentatricopeptide repeat protein, is essential to remove the fourth intron of both COB and COX1 pre-mRNAs in Saccharomyces cerevisiae. Curr Genet 55(4):475-84 |
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| Pan Y and Shadel GS (2009) Extension of chronological life span by reduced TOR signaling requires down-regulation of Sch9p and involves increased mitochondrial OXPHOS complex density. Aging (Albany NY) 1(1):131-45 |
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| Rak M and Tzagoloff A (2009) F1-dependent translation of mitochondrially encoded Atp6p and Atp8p subunits of yeast ATP synthase. Proc Natl Acad Sci U S A 106(44):18509-14 |
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| Erat MC and Sigel RK (2008) Divalent metal ions tune the self-splicing reaction of the yeast mitochondrial group II intron Sc.ai5gamma. J Biol Inorg Chem 13(6):1025-36 |
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| Kaspar BJ, et al. (2008) A shared RNA-binding site in the Pet54 protein is required for translational activation and group I intron splicing in yeast mitochondria. Nucleic Acids Res 36(9):2958-68 |
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| Kruschel D and Sigel RK (2008) Divalent metal ions promote the formation of the 5'-splice site recognition complex in a self-splicing group II intron. J Inorg Biochem 102(12):2147-54 |
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| Steiner M, et al. (2008) Single-molecule studies of group II intron ribozymes. Proc Natl Acad Sci U S A 105(37):13853-8 |
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| Waldsich C and Pyle AM (2008) A kinetic intermediate that regulates proper folding of a group II intron RNA. J Mol Biol 375(2):572-80 |
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| Nouet C, et al. (2007) Rmd9p Controls the Processing/Stability of Mitochondrial mRNAs and Its Overexpression Compensates for a Partial Deficiency of Oxa1p in Saccharomyces cerevisiae. Genetics 175(3):1105-15 |
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| Wang X, et al. (2007) Deletion of the MTO2 gene related to tRNA modification causes a failure in mitochondrial RNA metabolism in the yeast Saccharomyces cerevisiae. FEBS Lett 581(22):4228-34 |
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| Amiott EA and Jaehning JA (2006) Mitochondrial transcription is regulated via an ATP "sensing" mechanism that couples RNA abundance to respiration. Mol Cell 22(3):329-38 |
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| Barros MH, et al. (2006) COX24 codes for a mitochondrial protein required for processing of the COX1 transcript. J Biol Chem 281(6):3743-51 |
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| Gargouri A (2005) The reverse transcriptase encoded by ai1 intron is active in trans in the retro-deletion of yeast mitochondrial introns. FEMS Yeast Res 5(9):813-22 |
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| Huang HR, et al. (2005) The splicing of yeast mitochondrial group I and group II introns requires a DEAD-box protein with RNA chaperone function. Proc Natl Acad Sci U S A 102(1):163-8 |
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| Luban C, et al. (2005) Systematic screening of nuclear encoded proteins involved in the splicing metabolism of group II introns in yeast mitochondria. Gene 354:72-9 |
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| Su LJ, et al. (2005) An obligate intermediate along the slow folding pathway of a group II intron ribozyme. Nucleic Acids Res 33(21):6674-87 |
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| Barrientos A, et al. (2002) Shy1p is necessary for full expression of mitochondrial COX1 in the yeast model of Leigh's syndrome. EMBO J 21(1-2):43-52 |
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| Zhang L and Doudna JA (2002) Structural insights into group II intron catalysis and branch-site selection. Science 295(5562):2084-8 |
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| Gregan J, et al. (2001) The mitochondrial inner membrane protein Lpe10p, a homologue of Mrs2p, is essential for magnesium homeostasis and group II intron splicing in yeast. Mol Gen Genet 264(6):773-81 |
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| Bar-Shalom A and Moore MJ (2000) Tri-partite assay for studying exon ligation by the ai5gamma group II intron. Biochemistry 39(33):10207-18 |
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| Gordon PM, et al. (2000) Kinetic characterization of the second step of group II intron splicing: role of metal ions and the cleavage site 2'-OH in catalysis. Biochemistry 39(42):12939-52 |
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