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  • Author: Lin YC
  • References

Author: Lin YC


References 27 references


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  • Shekhar AC, et al. (2023) Site-directed biochemical analyses reveal that the switchable C-terminus of Rpc31 contributes to RNA polymerase III transcription initiation. Nucleic Acids Res 51(9):4223-4236 PMID:36484109
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  • Lin YC, et al. (2022) Orc6 is a component of the replication fork and enables efficient mismatch repair. Proc Natl Acad Sci U S A 119(22):e2121406119 PMID:35622890
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  • Tao XY, et al. (2022) Production of sesquiterpene patchoulol in mitochondrion-engineered Saccharomyces cerevisiae. Biotechnol Lett 44(4):571-580 PMID:35254611
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  • Liu M, et al. (2021) High-Level Production of Sesquiterpene Patchoulol in Saccharomyces cerevisiae. ACS Synth Biol 10(1):158-172 PMID:33395273
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  • Hada A, et al. (2019) Histone Octamer Structure Is Altered Early in ISW2 ATP-Dependent Nucleosome Remodeling. Cell Rep 28(1):282-294.e6 PMID:31269447
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  • Khoo SK, et al. (2018) The TFIIE-related Rpc82 subunit of RNA polymerase III interacts with the TFIIB-related transcription factor Brf1 and the polymerase cleft for transcription initiation. Nucleic Acids Res 46(3):1157-1166 PMID:29177422
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  • Lin YC, et al. (2018) Phosphatidylglycerophosphate phosphatase is required for root growth in Arabidopsis. Biochim Biophys Acta Mol Cell Biol Lipids 1863(6):563-575 PMID:29476828
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  • Chen YF, et al. (2016) Modulation of yeast telomerase activity by Cdc13 and Est1 in vitro. Sci Rep 6:34104 PMID:27659693
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  • Khoo SK, et al. (2014) Mapping the protein interaction network for TFIIB-related factor Brf1 in the RNA polymerase III preinitiation complex. Mol Cell Biol 34(3):551-9 PMID:24277937
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  • Hota SK, et al. (2013) Nucleosome mobilization by ISW2 requires the concerted action of the ATPase and SLIDE domains. Nat Struct Mol Biol 20(2):222-9 PMID:23334290
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  • Wu CC, et al. (2012) RNA polymerase III subunit architecture and implications for open promoter complex formation. Proc Natl Acad Sci U S A 109(47):19232-7 PMID:23132938
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  • Sun J, et al. (2011) Structural bases of dimerization of yeast telomere protein Cdc13 and its interaction with the catalytic subunit of DNA polymerase α. Cell Res 21(2):258-74 PMID:20877309
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  • Wu CC, et al. (2011) The TFIIF-like Rpc37/53 dimer lies at the center of a protein network to connect TFIIIC, Bdp1, and the RNA polymerase III active center. Mol Cell Biol 31(13):2715-28 PMID:21536656
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  • Qian W, et al. (2009) Ten1p promotes the telomeric DNA-binding activity of Cdc13p: implication for its function in telomere length regulation. Cell Res 19(7):849-63 PMID:19532124
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  • Wu TJ, et al. (2009) Sequential loading of Saccharomyces cerevisiae Ku and Cdc13p to telomeres. J Biol Chem 284(19):12801-8 PMID:19276071
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  • Hsieh YC, et al. (2007) The U3 small nucleolar ribonucleoprotein component Imp4p is a telomeric DNA-binding protein. Biochem J 408(3):387-93 PMID:17803460
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  • Lin YC, et al. (2007) Genetic analysis reveals essential and non-essential amino acids within the telomeric DNA-binding interface of Cdc13p. Biochem J 403(2):289-95 PMID:17166094
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  • Tsai RT, et al. (2005) Spliceosome disassembly catalyzed by Prp43 and its associated components Ntr1 and Ntr2. Genes Dev 19(24):2991-3003 PMID:16357217
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  • Choi WS, et al. (2004) The Schizosaccharomyces pombe open promoter bubble: mammalian-like arrangement and properties. J Mol Biol 340(5):981-9 PMID:15236961
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  • Lue NF, et al. (2003) A conserved telomerase motif within the catalytic domain of telomerase reverse transcriptase is specifically required for repeat addition processivity. Mol Cell Biol 23(23):8440-9 PMID:14612390
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  • Lin YC, et al. (2001) Binding and partial denaturing of G-quartet DNA by Cdc13p of Saccharomyces cerevisiae. J Biol Chem 276(50):47671-4 PMID:11585819
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  • Lin YC, et al. (2001) Specific binding of single-stranded telomeric DNA by Cdc13p of Saccharomyces cerevisiae. J Biol Chem 276(27):24588-93 PMID:11309395
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  • Lin YC, et al. (2001) Renaturation and stabilization of the telomere-binding activity of Saccharomyces Cdc13(451-693)p by L-arginine. Anal Biochem 294(1):44-7 PMID:11412004
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  • Liu Y, et al. (2000) Characterization of a Saccharomyces cerevisiae homologue of Schizosaccharomyces pombe Chk1 involved in DNA-damage-induced M-phase arrest. Mol Gen Genet 262(6):1132-46 PMID:10660074
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  • Wang MJ, et al. (2000) Telomere-binding and Stn1p-interacting activities are required for the essential function of Saccharomyces cerevisiae Cdc13p. Nucleic Acids Res 28(23):4733-41 PMID:11095684
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