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  • Author: Baker RE
  • References

Author: Baker RE


References 29 references


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  • Ganesan R, et al. (2022) Ribosome-bound Upf1 forms distinct 80S complexes and conducts mRNA surveillance. RNA 28(12):1621-1642 PMID:36192133
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  • Sterrett MC, et al. (2021) A budding yeast model for human disease mutations in the EXOSC2 cap subunit of the RNA exosome complex. RNA 27(9):1046-1067 PMID:34162742
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  • Au WC, et al. (2020) Skp, Cullin, F-box (SCF)-Met30 and SCF-Cdc4-Mediated Proteolysis of CENP-A Prevents Mislocalization of CENP-A for Chromosomal Stability in Budding Yeast. PLoS Genet 16(2):e1008597 PMID:32032354
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  • Ohkuni K, et al. (2020) Deposition of Centromeric Histone H3 Variant CENP-A/Cse4 into Chromatin Is Facilitated by Its C-Terminal Sumoylation. Genetics 214(4):839-854 PMID:32111629
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  • Mishra PK, et al. (2019) Cell cycle-dependent association of polo kinase Cdc5 with CENP-A contributes to faithful chromosome segregation in budding yeast. Mol Biol Cell 30(8):1020-1036 PMID:30726152
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  • Ciftci-Yilmaz S, et al. (2018) A Genome-Wide Screen Reveals a Role for the HIR Histone Chaperone Complex in Preventing Mislocalization of Budding Yeast CENP-A. Genetics 210(1):203-218 PMID:30012561
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  • Ohkuni K, et al. (2018) N-terminal Sumoylation of Centromeric Histone H3 Variant Cse4 Regulates Its Proteolysis To Prevent Mislocalization to Non-centromeric Chromatin. G3 (Bethesda) 8(4):1215-1223 PMID:29432128
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  • Ohkuni K, et al. (2018) SUMO-Targeted Ubiquitin Ligases (STUbLs) Reduce the Toxicity and Abnormal Transcriptional Activity Associated With a Mutant, Aggregation-Prone Fragment of Huntingtin. Front Genet 9:379 PMID:30279700
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  • Mishra PK, et al. (2016) Polo kinase Cdc5 associates with centromeres to facilitate the removal of centromeric cohesin during mitosis. Mol Biol Cell 27(14):2286-300 PMID:27226485
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  • Ohkuni K, et al. (2016) SUMO-Targeted Ubiquitin Ligase (STUbL) Slx5 regulates proteolysis of centromeric histone H3 variant Cse4 and prevents its mislocalization to euchromatin. Mol Biol Cell 27(9):1500-10 PMID:26960795
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  • Au WC, et al. (2013) A novel role of the N terminus of budding yeast histone H3 variant Cse4 in ubiquitin-mediated proteolysis. Genetics 194(2):513-8 PMID:23525333
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  • Boeckmann L, et al. (2013) Phosphorylation of centromeric histone H3 variant regulates chromosome segregation in Saccharomyces cerevisiae. Mol Biol Cell 24(12):2034-44 PMID:23637466
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  • Stevenson GP, et al. (2012) Theoretical analysis of the two-electron transfer reaction and experimental studies with surface-confined cytochrome c peroxidase using large-amplitude Fourier transformed AC voltammetry. Langmuir 28(25):9864-77 PMID:22607123
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  • Mishra PK, et al. (2011) Misregulation of Scm3p/HJURP causes chromosome instability in Saccharomyces cerevisiae and human cells. PLoS Genet 7(9):e1002303 PMID:21980305
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  • Stoler S, et al. (2007) Scm3, an essential Saccharomyces cerevisiae centromere protein required for G2/M progression and Cse4 localization. Proc Natl Acad Sci U S A 104(25):10571-6 PMID:17548816
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  • Baker RE and Rogers K (2006) Phylogenetic analysis of fungal centromere H3 proteins. Genetics 174(3):1481-92 PMID:17028330
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  • Baker RE and Rogers K (2005) Genetic and genomic analysis of the AT-rich centromere DNA element II of Saccharomyces cerevisiae. Genetics 171(4):1463-75 PMID:16079225
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  • Morey L, et al. (2004) The histone fold domain of Cse4 is sufficient for CEN targeting and propagation of active centromeres in budding yeast. Eukaryot Cell 3(6):1533-43 PMID:15590827
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  • Chen Y, et al. (2000) The N terminus of the centromere H3-like protein Cse4p performs an essential function distinct from that of the histone fold domain. Mol Cell Biol 20(18):7037-48 PMID:10958698
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  • van Hoof A, et al. (2000) Function of the ski4p (Csl4p) and Ski7p proteins in 3'-to-5' degradation of mRNA. Mol Cell Biol 20(21):8230-43 PMID:11027292
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  • Keith KC, et al. (1999) Analysis of primary structural determinants that distinguish the centromere-specific function of histone variant Cse4p from histone H3. Mol Cell Biol 19(9):6130-9 PMID:10454560
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  • Baker RE, et al. (1998) Mutations synthetically lethal with cep1 target S. cerevisiae kinetochore components. Genetics 149(1):73-85 PMID:9584087
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  • O'Connell KF, et al. (1995) Role of the Saccharomyces cerevisiae general regulatory factor CP1 in methionine biosynthetic gene transcription. Mol Cell Biol 15(4):1879-88 PMID:7891681
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  • Masison DC, et al. (1993) Mutational analysis of the Saccharomyces cerevisiae general regulatory factor CP1. Nucleic Acids Res 21(17):4133-41 PMID:8371988
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  • Masison DC and Baker RE (1992) Meiosis in Saccharomyces cerevisiae mutants lacking the centromere-binding protein CP1. Genetics 131(1):43-53 PMID:1592241
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  • O'Connell KF and Baker RE (1992) Possible cross-regulation of phosphate and sulfate metabolism in Saccharomyces cerevisiae. Genetics 132(1):63-73 PMID:1398064
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  • Baker RE and Masison DC (1990) Isolation of the gene encoding the Saccharomyces cerevisiae centromere-binding protein CP1. Mol Cell Biol 10(6):2458-67 PMID:2188087
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  • Baker RE, et al. (1989) Purification of the yeast centromere binding protein CP1 and a mutational analysis of its binding site. J Biol Chem 264(18):10843-50 PMID:2543684
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  • Baker RE, et al. (1986) Effects of tRNATyr point mutations on the binding of yeast RNA polymerase III transcription factor C. J Biol Chem 261(12):5275-82 PMID:3633923
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