Mechanistic basis for microhomology identification and genome scarring by polymerase theta

Juan Carvajal-Garcia; Jang Eun Cho; Pablo Carvajal-Garcia; Wanjuan Feng; Richard D. Wood; Jeff Sekelsky; Gaorav P. Gupta; Steven A. Roberts; Dale A. Ramsden

doi:https://doi.org/10.1073/pnas.1921791117

doi.org/10.1073/pnas.1921791117

Mechanistic basis for microhomology identification and genome scarring by polymerase theta

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..., Dale A. Ramsden

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Proceedings of the National Academy of Sciences

Volume: 117, Issue: 15, Pages: 8476 - 8485

Published: Mar 31, 2020

Abstract

DNA polymerase theta mediates an end joining pathway (TMEJ) that repairs chromosome breaks. It requires resection of broken ends to generate long, 3′ single-stranded DNA tails, annealing of complementary sequence segments (microhomologies) in these tails, followed by microhomology-primed synthesis sufficient to resolve broken ends. The means by which microhomologies are identified is thus a critical step in this pathway, but is not understood....

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Paper Details

Title

Mechanistic basis for microhomology identification and genome scarring by polymerase theta

DOI

doi.org/10.1073/pnas.1921791117

Published Date

Mar 31, 2020

Journal

Proceedings of the National Academy of Sciences

Volume

117

Issue

15

Pages

8476 - 8485

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