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  • Author: Shen B
  • References

Author: Shen B


References 31 references


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  • Jiao X, et al. (2022) Secretory Production of Tocotrienols in Saccharomyces cerevisiae. ACS Synth Biol 11(2):788-799 PMID:35100508
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  • Sun H, et al. (2021) Error-prone, stress-induced 3' flap-based Okazaki fragment maturation supports cell survival. Science 374(6572):1252-1258 PMID:34855483
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  • Shen B, et al. (2020) Fermentative production of Vitamin E tocotrienols in Saccharomyces cerevisiae under cold-shock-triggered temperature control. Nat Commun 11(1):5155 PMID:33056995
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  • Gerbasi VR, et al. (2018) Critical Role for Saccharomyces cerevisiae Asc1p in Translational Initiation at Elevated Temperatures. Proteomics 18(23):e1800208 PMID:30285306
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  • Samir P, et al. (2018) Identification of Changing Ribosome Protein Compositions using Mass Spectrometry. Proteomics 18(20):e1800217 PMID:30211483
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  • Chen J, et al. (2013) One-step fabrication of sub-10-nm plasmonic nanogaps for reliable SERS sensing of microorganisms. Biosens Bioelectron 44:191-7 PMID:23428732
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  • Zheng L and Shen B (2011) Okazaki fragment maturation: nucleases take centre stage. J Mol Cell Biol 3(1):23-30 PMID:21278448
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  • Guo Z, et al. (2008) Nucleolar localization and dynamic roles of flap endonuclease 1 in ribosomal DNA replication and damage repair. Mol Cell Biol 28(13):4310-9 PMID:18443037
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  • Zheng L, et al. (2008) Human DNA2 is a mitochondrial nuclease/helicase for efficient processing of DNA replication and repair intermediates. Mol Cell 32(3):325-36 PMID:18995831
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  • Singh P, et al. (2007) Concerted action of exonuclease and Gap-dependent endonuclease activities of FEN-1 contributes to the resolution of triplet repeat sequences (CTG)n- and (GAA)n-derived secondary structures formed during maturation of Okazaki fragments. J Biol Chem 282(6):3465-77 PMID:17138563
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  • Gandhi TK, et al. (2006) Analysis of the human protein interactome and comparison with yeast, worm and fly interaction datasets. Nat Genet 38(3):285-93 PMID:16501559
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  • Zheng L, et al. (2005) Novel function of the flap endonuclease 1 complex in processing stalled DNA replication forks. EMBO Rep 6(1):83-9 PMID:15592449
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  • Sun X, et al. (2003) Complementary functions of the Saccharomyces cerevisiae Rad2 family nucleases in Okazaki fragment maturation, mutation avoidance, and chromosome stability. DNA Repair (Amst) 2(8):925-40 PMID:12893088
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  • Negritto MC, et al. (2001) Novel function of Rad27 (FEN-1) in restricting short-sequence recombination. Mol Cell Biol 21(7):2349-58 PMID:11259584
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  • Qiu J, et al. (2001) Cell cycle-dependent and DNA damage-inducible nuclear localization of FEN-1 nuclease is consistent with its dual functions in DNA replication and repair. J Biol Chem 276(7):4901-8 PMID:11053418
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  • Chen JZ, et al. (2000) Mutational spectrum analysis of RNase H(35) deficient Saccharomyces cerevisiae using fluorescence-based directed termination PCR. Nucleic Acids Res 28(18):3649-56 PMID:10982888
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  • Qiu J, et al. (1999) Saccharomyces cerevisiae RNase H(35) functions in RNA primer removal during lagging-strand DNA synthesis, most efficiently in cooperation with Rad27 nuclease. Mol Cell Biol 19(12):8361-71 PMID:10567561
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  • Shen B, et al. (1999) Roles of sugar alcohols in osmotic stress adaptation. Replacement of glycerol by mannitol and sorbitol in yeast. Plant Physiol 121(1):45-52 PMID:10482659
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  • Frank G, et al. (1998) Partial functional deficiency of E160D flap endonuclease-1 mutant in vitro and in vivo is due to defective cleavage of DNA substrates. J Biol Chem 273(49):33064-72 PMID:9830061
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  • Shen B, et al. (1997) Functional analysis of point mutations in human flap endonuclease-1 active site. Nucleic Acids Res 25(16):3332-8 PMID:9241249
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