The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair

DNA polymerase δ, which contains the catalytic subunit, Pol3, Pol31, and Pol32, contributes both to DNA replication and repair. The deletion of pol31 is lethal, and compromising the Pol3–Pol31 interaction domains confers hypersensitivity to cold, hydroxyurea (HU), and methyl methanesulfonate, phenoc...

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Autores principales: Shimada, Kenji, Tsai-Pflugfelder, Monika, Vijeh Motlagh, Niloofar Davoodi, Delgoshaie, Neda, Fuchs, Jeannette, Gut, Heinz, Gasser, Susan M
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2021
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8321694/
https://www.ncbi.nlm.nih.gov/pubmed/34226278
http://dx.doi.org/10.26508/lsa.202101138
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author Shimada, Kenji
Tsai-Pflugfelder, Monika
Vijeh Motlagh, Niloofar Davoodi
Delgoshaie, Neda
Fuchs, Jeannette
Gut, Heinz
Gasser, Susan M
author_facet Shimada, Kenji
Tsai-Pflugfelder, Monika
Vijeh Motlagh, Niloofar Davoodi
Delgoshaie, Neda
Fuchs, Jeannette
Gut, Heinz
Gasser, Susan M
author_sort Shimada, Kenji
collection PubMed
description DNA polymerase δ, which contains the catalytic subunit, Pol3, Pol31, and Pol32, contributes both to DNA replication and repair. The deletion of pol31 is lethal, and compromising the Pol3–Pol31 interaction domains confers hypersensitivity to cold, hydroxyurea (HU), and methyl methanesulfonate, phenocopying pol32Δ. We have identified alanine-substitutions in pol31 that suppress these deficiencies in pol32Δ cells. We characterize two mutants, pol31-T415A and pol31-W417A, which map to a solvent-exposed loop that mediates Pol31–Pol3 and Pol31–Rev3 interactions. The pol31-T415A substitution compromises binding to the Pol3 CysB domain, whereas Pol31-W417A improves it. Importantly, loss of Pol32, such as pol31-T415A, leads to reduced Pol3 and Pol31 protein levels, which are restored by pol31-W417A. The mutations have differential effects on recovery from acute HU, break-induced replication and trans-lesion synthesis repair pathways. Unlike trans-lesion synthesis and growth on HU, the loss of break-induced replication in pol32Δ cells is not restored by pol31-W417A, highlighting pathway-specific roles for Pol32 in fork-related repair. Intriguingly, CHIP analyses of replication forks on HU showed that pol32Δ and pol31-T415A indirectly destabilize DNA pol α and pol ε at stalled forks.
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spelling pubmed-83216942021-08-04 The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair Shimada, Kenji Tsai-Pflugfelder, Monika Vijeh Motlagh, Niloofar Davoodi Delgoshaie, Neda Fuchs, Jeannette Gut, Heinz Gasser, Susan M Life Sci Alliance Research Articles DNA polymerase δ, which contains the catalytic subunit, Pol3, Pol31, and Pol32, contributes both to DNA replication and repair. The deletion of pol31 is lethal, and compromising the Pol3–Pol31 interaction domains confers hypersensitivity to cold, hydroxyurea (HU), and methyl methanesulfonate, phenocopying pol32Δ. We have identified alanine-substitutions in pol31 that suppress these deficiencies in pol32Δ cells. We characterize two mutants, pol31-T415A and pol31-W417A, which map to a solvent-exposed loop that mediates Pol31–Pol3 and Pol31–Rev3 interactions. The pol31-T415A substitution compromises binding to the Pol3 CysB domain, whereas Pol31-W417A improves it. Importantly, loss of Pol32, such as pol31-T415A, leads to reduced Pol3 and Pol31 protein levels, which are restored by pol31-W417A. The mutations have differential effects on recovery from acute HU, break-induced replication and trans-lesion synthesis repair pathways. Unlike trans-lesion synthesis and growth on HU, the loss of break-induced replication in pol32Δ cells is not restored by pol31-W417A, highlighting pathway-specific roles for Pol32 in fork-related repair. Intriguingly, CHIP analyses of replication forks on HU showed that pol32Δ and pol31-T415A indirectly destabilize DNA pol α and pol ε at stalled forks. Life Science Alliance LLC 2021-07-05 /pmc/articles/PMC8321694/ /pubmed/34226278 http://dx.doi.org/10.26508/lsa.202101138 Text en © 2021 Shimada et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Shimada, Kenji
Tsai-Pflugfelder, Monika
Vijeh Motlagh, Niloofar Davoodi
Delgoshaie, Neda
Fuchs, Jeannette
Gut, Heinz
Gasser, Susan M
The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair
title The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair
title_full The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair
title_fullStr The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair
title_full_unstemmed The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair
title_short The stabilized Pol31–Pol3 interface counteracts Pol32 ablation with differential effects on repair
title_sort stabilized pol31–pol3 interface counteracts pol32 ablation with differential effects on repair
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8321694/
https://www.ncbi.nlm.nih.gov/pubmed/34226278
http://dx.doi.org/10.26508/lsa.202101138
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