نتایج جستجو برای: Rev.1

تعداد نتایج: 346  

2011
Graham C. Walker Mary Ellen Wiltrout

Translesion DNA synthesis (TLS) functions as a tolerance mechanism for DNA damage at a potentially mutagenic cost. Three TLS polymerases (Pols) function to bypass DNA damage in Saccharomyces cerevisiae: Rev1, Pol ζ, a heterodimer of the Rev3 and Rev7 proteins, and Pol η (Rad30). Our lab has shown that S. cerevisiae Rev1 protein levels are under striking cell cycle regulation, being ~50-fold hig...

Journal: :DNA repair 2011
Mary Ellen Wiltrout Graham C Walker

Translesion DNA synthesis (TLS) functions as a tolerance mechanism for DNA damage at a potentially mutagenic cost. Three TLS polymerases (Pols) function to bypass DNA damage in Saccharomyces cerevisiae: Rev1, Pol ζ, a heterodimer of the Rev3 and Rev7 proteins, and Pol η (Rad30). Our lab has shown that S. cerevisiae Rev1 protein levels are under striking cell cycle regulation, being ∼50-fold hig...

Journal: :Current Biology 2006
Yukinori Hirano Katsunori Sugimoto

DNA polymerase zeta (Polzeta) and Rev1 contribute to the bypassing of DNA lesions, termed translesion DNA synthesis (TLS). Polzeta consists of two subunits, one encoded by REV3 (the catalytic subunit) and the other encoded by REV7. Rev1 acts as a deoxycytidyl transferase, inserting dCMP opposite lesions. Polzeta and Rev1 have been shown to operate in the same TLS pathway in the budding yeast Sa...

2017
Megumi Sasatani Yang Xi Junko Kajimura Toshiyuki Kawamura Jinlian Piao Yuji Masuda Hiroaki Honda Kei Kubo Takahiro Mikamoto Hiromitsu Watanabe Yanbin Xu Hidehiko Kawai Tsutomu Shimura Asao Noda Kanya Hamasaki Yoichiro Kusunoki Elena Karamfilova Zaharieva Kenji Kamiya

Cancer development often involves mutagenic replication of damaged DNA by the error-prone translesion synthesis (TLS) pathway. Aberrant activation of this pathway plays a role in tumorigenesis by promoting genetic mutations. Rev1 controls the function of the TLS pathway, and Rev1 expression levels are associated with DNA damage induced cytotoxicity and mutagenicity. However, it remains unclear ...

Journal: :Proceedings of the National Academy of Sciences of the United States of America 2006
Lauren S Waters Graham C Walker

The Rev1 protein lies at the root of mutagenesis in eukaryotes. Together with DNA polymerase zeta (Rev3/7), Rev1 function is required for the active introduction of the majority of mutations into the genomes of eukaryotes from yeast to humans. Rev1 and polymerase zeta are error-prone translesion DNA polymerases, but Rev1's DNA polymerase catalytic activity is not essential for mutagenesis. Rath...

Journal: :Nucleic acids research 2004
Dongyu Guo Zhongwen Xie Huiyun Shen Bo Zhao Zhigang Wang

Translesion synthesis is an important mechanism in response to unrepaired DNA lesions during replication. The DNA polymerase zeta (Polzeta) mutagenesis pathway is a major error-prone translesion synthesis mechanism requiring Polzeta and Rev1. In addition to its dCMP transferase, a non-catalytic function of Rev1 is suspected in cellular response to certain types of DNA lesions. However, it is no...

Journal: :Biochemistry 2016
Yulia Pustovalova Mariana T Q Magalhães Sanjay D'Souza Alessandro A Rizzo George Korza Graham C Walker Dmitry M Korzhnev

Translesion synthesis (TLS) is a mutagenic branch of cellular DNA damage tolerance that enables bypass replication over DNA lesions carried out by specialized low-fidelity DNA polymerases. The replicative bypass of most types of DNA damage is performed in a two-step process of Rev1/Polζ-dependent TLS. In the first step, a Y-family TLS enzyme, typically Polη, Polι, or Polκ, inserts a nucleotide ...

Journal: :Hiroshima journal of medical sciences 2010
Noriko Tachibana Takaaki Iwamoto Toshiyuki Kawamura Yuji Masuda Toshio Mori Kenji Kamiya

Continuous exposure of cells to exogenous and endogenous agents produces many types of DNA damage during normal cell cycles. Post-replication repair, consisting of error-free and error-prone sub-pathways, is required for tolerance of such DNA damage. REV1 plays a crucial role in regulation of the error-prone pathway. To facilitate analysis of its cellular functions, we here generated a mouse Re...

Journal: :Genetics 2011
Mary Ellen Wiltrout Graham C Walker

A cell's ability to tolerate DNA damage is directly connected to the human development of diseases and cancer. To better understand the processes underlying mutagenesis, we studied the cell's reliance on the potentially error-prone translesion synthesis (TLS), and an error-free, template-switching pathway in Saccharomyces cerevisiae. The primary proteins mediating S. cerevisiae TLS are three DN...

Journal: :The Journal of Experimental Medicine 2006
Jacob G. Jansen Petra Langerak Anastasia Tsaalbi-Shtylik Paul van den Berk Heinz Jacobs Niels de Wind

Somatic hypermutation of Ig genes enables B cells of the germinal center to generate high-affinity immunoglobulin variants. Key intermediates in somatic hypermutation are deoxyuridine lesions, introduced by activation-induced cytidine deaminase. These lesions can be processed further to abasic sites by uracil DNA glycosylase. Mutagenic replication of deoxyuridine, or of its abasic derivative, b...

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