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  • Author: Giannattasio M
  • References

Author: Giannattasio M


References 21 references


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  • Choudhary R, et al. (2023) Sen1 and Rrm3 ensure permissive topological conditions for replication termination. Cell Rep 42(7):112747 PMID:37405920
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  • Dolce V, et al. (2022) Parental histone deposition on the replicated strands promotes error-free DNA damage tolerance and regulates drug resistance. Genes Dev 36(3-4):167-179 PMID:35115379
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  • Agashe S, et al. (2021) Smc5/6 functions with Sgs1-Top3-Rmi1 to complete chromosome replication at natural pause sites. Nat Commun 12(1):2111 PMID:33833229
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  • Pellicanò G, et al. (2021) Checkpoint-mediated DNA polymerase ε exonuclease activity curbing counteracts resection-driven fork collapse. Mol Cell 81(13):2778-2792.e4 PMID:33932350
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  • Giannattasio M and Branzei D (2019) DNA Replication Through Strand Displacement During Lagging Strand DNA Synthesis in Saccharomyces cerevisiae. Genes (Basel) 10(2) PMID:30795600
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  • Rossi SE, et al. (2018) Dna2 processes behind the fork long ssDNA flaps generated by Pif1 and replication-dependent strand displacement. Nat Commun 9(1):4830 PMID:30446656
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  • Rossi SE, et al. (2016) Genome-wide localization of Rrm3 and Pif1 DNA helicases at stalled active and inactive DNA replication forks of Saccharomyces cerevisiae. Genom Data 7:162-5 PMID:26981397
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  • Rossi SE, et al. (2015) Rad53-Mediated Regulation of Rrm3 and Pif1 DNA Helicases Contributes to Prevention of Aberrant Fork Transitions under Replication Stress. Cell Rep 13(1):80-92 PMID:26411679
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  • Giannattasio M, et al. (2014) Visualization of recombination-mediated damage bypass by template switching. Nat Struct Mol Biol 21(10):884-92 PMID:25195051
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  • Engels K, et al. (2011) 14-3-3 Proteins regulate exonuclease 1-dependent processing of stalled replication forks. PLoS Genet 7(4):e1001367 PMID:21533173
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  • Giannattasio M, et al. (2010) Exo1 competes with repair synthesis, converts NER intermediates to long ssDNA gaps, and promotes checkpoint activation. Mol Cell 40(1):50-62 PMID:20932474
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  • Puddu F, et al. (2008) Phosphorylation of the budding yeast 9-1-1 complex is required for Dpb11 function in the full activation of the UV-induced DNA damage checkpoint. Mol Cell Biol 28(15):4782-93 PMID:18541674
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  • Sabbioneda S, et al. (2007) Yeast Rev1 is cell cycle regulated, phosphorylated in response to DNA damage and its binding to chromosomes is dependent upon MEC1. DNA Repair (Amst) 6(1):121-7 PMID:17035102
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  • Nespoli A, et al. (2006) Alk1 and Alk2 are two new cell cycle-regulated haspin-like proteins in budding yeast. Cell Cycle 5(13):1464-71 PMID:16855400
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  • Giannattasio M, et al. (2005) The DNA damage checkpoint response requires histone H2B ubiquitination by Rad6-Bre1 and H3 methylation by Dot1. J Biol Chem 280(11):9879-86 PMID:15632126
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  • Sabbioneda S, et al. (2005) The 9-1-1 checkpoint clamp physically interacts with polzeta and is partially required for spontaneous polzeta-dependent mutagenesis in Saccharomyces cerevisiae. J Biol Chem 280(46):38657-65 PMID:16169844
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  • Giannattasio M, et al. (2004) DNA decay and limited Rad53 activation after liquid holding of UV-treated nucleotide excision repair deficient S. cerevisiae cells. DNA Repair (Amst) 3(12):1591-9 PMID:15474420
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  • Giannattasio M, et al. (2004) Physical and functional interactions between nucleotide excision repair and DNA damage checkpoint. EMBO J 23(2):429-38 PMID:14726955
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  • Giannattasio M, et al. (2003) Correlation between checkpoint activation and in vivo assembly of the yeast checkpoint complex Rad17-Mec3-Ddc1. J Biol Chem 278(25):22303-8 PMID:12672803
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  • Muzi-Falconi M, et al. (2003) The DNA polymerase alpha-primase complex: multiple functions and interactions. ScientificWorldJournal 3:21-33 PMID:12806117
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  • Giannattasio M, et al. (2002) A dominant-negative MEC3 mutant uncovers new functions for the Rad17 complex and Tel1. Proc Natl Acad Sci U S A 99(20):12997-3002 PMID:12271137
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