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Chemical Research in Toxicology
|
September 8, 2017
Coordination and Substitution of DNA Polymerases in Response to Genomic Obstacles
Michael A Trakselis, Matthew T Cranford, Aurea M Chu
Nucleic Acids Research
|
September 30, 2020
A hand-off of DNA between archaeal polymerases allows high-fidelity replication to resume at a discrete intermediate three bases past 8-oxoguanine
Matthew T Cranford, Joseph D Kaszubowski, Michael A Trakselis
Biorxiv : the Preprint Server for Biology
|
January 20, 2025
Leading and lagging strand abasic sites differentially affect vertebrate replisome progression but involve analogous bypass mechanisms
Matthew T Cranford, Steven N Dahmen, David Cortez, et al.
Nucleic Acids Research
|
October 2, 2025
Leading and lagging strand abasic sites differentially affect vertebrate replisome progression but involve analogous bypass mechanisms
Matthew T Cranford, Steven N Dahmen, David Cortez, et al.
Methods in Enzymology
|
August 7, 2022
Replication fork collapse in vitro using Xenopus egg extracts
Sara C Conwell, Matthew T Cranford, Tamar Kavlashvili, et al.
Nature Protocols
|
April 9, 2024
Control of DNA replication in vitro using a reversible replication barrier
Emma J Vontalge, Tamar Kavlashvili, Steven N Dahmen, et al.
Nucleic Acids Research
|
June 29, 2017
Characterization of a coupled DNA replication and translesion synthesis polymerase supraholoenzyme from archaea
Matthew T Cranford, Aurea M Chu, Joshua K Baguley, et al.
Nature Structural & Molecular Biology
|
May 27, 2026
Distinct repair outcomes from single and convergent replication fork collapse
Sara C Conwell, Khushi V N Patel, Savannah J Weeks-Pollenz, et al.
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Search research articles
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Showing results (1-10 of 8) with videos related to
Sort By:
Page
of 1
Chemical Research in Toxicology
|
September 8, 2017
Coordination and Substitution of DNA Polymerases in Response to Genomic Obstacles
Michael A Trakselis, Matthew T Cranford, Aurea M Chu
Nucleic Acids Research
|
September 30, 2020
A hand-off of DNA between archaeal polymerases allows high-fidelity replication to resume at a discrete intermediate three bases past 8-oxoguanine
Matthew T Cranford, Joseph D Kaszubowski, Michael A Trakselis
Biorxiv : the Preprint Server for Biology
|
January 20, 2025
Leading and lagging strand abasic sites differentially affect vertebrate replisome progression but involve analogous bypass mechanisms
Matthew T Cranford, Steven N Dahmen, David Cortez, et al.
Nucleic Acids Research
|
October 2, 2025
Leading and lagging strand abasic sites differentially affect vertebrate replisome progression but involve analogous bypass mechanisms
Matthew T Cranford, Steven N Dahmen, David Cortez, et al.
Methods in Enzymology
|
August 7, 2022
Replication fork collapse in vitro using Xenopus egg extracts
Sara C Conwell, Matthew T Cranford, Tamar Kavlashvili, et al.
Nature Protocols
|
April 9, 2024
Control of DNA replication in vitro using a reversible replication barrier
Emma J Vontalge, Tamar Kavlashvili, Steven N Dahmen, et al.
Nucleic Acids Research
|
June 29, 2017
Characterization of a coupled DNA replication and translesion synthesis polymerase supraholoenzyme from archaea
Matthew T Cranford, Aurea M Chu, Joshua K Baguley, et al.
Nature Structural & Molecular Biology
|
May 27, 2026
Distinct repair outcomes from single and convergent replication fork collapse
Sara C Conwell, Khushi V N Patel, Savannah J Weeks-Pollenz, et al.
Page
of 1