scholarly journals Role of the ubiquitin-binding domain of Polη in Rad18-independent translesion DNA synthesis in human cell extracts

2010 ◽  
Vol 38 (19) ◽  
pp. 6456-6465 ◽  
Author(s):  
Valérie Schmutz ◽  
Régine Janel-Bintz ◽  
Jérôme Wagner ◽  
Denis Biard ◽  
Naoko Shiomi ◽  
...  
Keyword(s):  
Dna Synthesis ◽  
Human Cell ◽  
Binding Domain ◽  
Translesion Dna Synthesis ◽  
Cell Extracts ◽  
Ubiquitin Binding ◽  
Ubiquitin Binding Domain ◽  
Translesion Dna

scholarly journals Investigating the role of the E. coli β‐sliding clamp in DNA polymerase V‐dependent translesion DNA synthesis

2006 ◽  
Vol 20 (5) ◽  
Author(s):  
Mark David Sutton ◽  
Laurie Sanders ◽  
Sarah Ponticelli ◽  
Jill Duzen ◽  
Robert Maul ◽  
...  
Keyword(s):  
Dna Synthesis ◽  
Dna Polymerase ◽  
Translesion Dna Synthesis ◽  
E Coli ◽  
Sliding Clamp ◽  
Dna Polymerase V ◽  
Translesion Dna

scholarly journals The role of HERC2 and RNF8 ubiquitin E3 ligases in the promotion of translesion DNA synthesis in the chicken DT40 cell line

DNA Repair ◽  
2016 ◽  
Vol 40 ◽  
pp. 67-76 ◽  
Author(s):  
Mohiuddin ◽  
Shunsuke Kobayashi ◽  
Islam Shamima Keka ◽  
Guillaume Guilbaud ◽  
Julian Sale ◽  
...  
Keyword(s):  
Dna Synthesis ◽  
Cell Line ◽  
E3 Ligases ◽  
Translesion Dna Synthesis ◽  
Dt40 Cell ◽  
Translesion Dna ◽  
Chicken Dt40 Cell

scholarly journals Characterization of human translesion DNA synthesis across a UV-induced DNA lesion

eLife ◽  
2016 ◽  
Vol 5 ◽  
Author(s):  
Mark Hedglin ◽  
Binod Pandey ◽  
Stephen J Benkovic
Keyword(s):  
Dna Synthesis ◽  
S Phase ◽  
Post Translational Modification ◽  
Translesion Dna Synthesis ◽  
Quantitative Evidence ◽  
Dna Lesion ◽  
Translesion Dna ◽  
Lagging Strand

Translesion DNA synthesis (TLS) during S-phase uses specialized TLS DNA polymerases to replicate a DNA lesion, allowing stringent DNA synthesis to resume beyond the offending damage. Human TLS involves the conjugation of ubiquitin to PCNA clamps encircling damaged DNA and the role of this post-translational modification is under scrutiny. A widely-accepted model purports that ubiquitinated PCNA recruits TLS polymerases such as pol η to sites of DNA damage where they may also displace a blocked replicative polymerase. We provide extensive quantitative evidence that the binding of pol η to PCNA and the ensuing TLS are both independent of PCNA ubiquitination. Rather, the unique properties of pols η and δ are attuned to promote an efficient and passive exchange of polymerases during TLS on the lagging strand.

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