Abstract

Double-strand breaks (DSBs) can cause chromosome rearrangements, leading to cancer and some genetic diseases. WRN and SAMHD1 are proteins implicated in DSB processing and form a complex. Our study shows that SAMHD1 influences the nuclear recruitment of WRN in response to CPT-induced DSBs. Silencing SAMHD1 restores single-stranded DNA formation in WRN-deficient cells. However, DSB accumulation from CPT treatment is not recovered in WRN S1133A or WS cells when SAMHD1 is silenced. This suggests SAMHD1 cooperates with WRN in DNA damage repair and may have additional protective roles when WRN function in DSBs processing is impaired.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Double-Strand Breaks in Heterochromatin Move Outside of a Dynamic HP1a Domain to Complete Recombinational Repair
Irene Chiolo ... Serafin U Colmenares
Cell | VOL. 144
Irene Chiolo, et. al.Irene Chiolo ... Serafin U Colmenares
25 Feb 2011
Mechanisms and Consequences of Double-Strand DNA Break Formation in Chromatin.
Wendy J Cannan ... David S Pederson
Journal of cellular physiology | VOL. 231
Wendy J Cannan, et. al.Wendy J Cannan ... David S Pederson
28 Sep 2015
Mechanisms of DNA damage-mediated neurotoxicity in neurodegenerative disease.
Gwyneth Welch ... Li‐Huei Tsai
EMBO reports | VOL. 23
Gwyneth Welch, et. al.Gwyneth Welch ... Li‐Huei Tsai
02 May 2022
A Cell Cycle-Dependent Regulatory Circuit Composed of 53BP1-RIF1 and BRCA1-CtIP Controls DNA Repair Pathway Choice
Jordan T.F Young ... Meagan Munro
Molecular Cell | VOL. 49
Jordan T.F Young, et. al.Jordan T.F Young ... Meagan Munro
17 Jan 2013
View more papers

More From: microPublication biology

Paper Title
Journal
Date
Author
Analysis of fate determination of vegetative cells with reduced phycocyanin content in a multicellular cyanobacterium using Raman microscopy.
Yuto Imai ... Jun-Ichi Ishihara
microPublication biology | VOL. 2024
Yuto Imai, et. al.Yuto Imai ... Jun-Ichi Ishihara
01 Jan 2024
Loss of the puromycin-sensitive aminopeptidase, PAM-1, triggers the spindle assembly checkpoint during the first mitotic division in Caenorhabditis elegans.
Rebecca Lyczak ... Aidan Durkan
microPublication biology | VOL. 2024
Rebecca Lyczak, et. al.Rebecca Lyczak ... Aidan Durkan
01 Jan 2024
Erratum: Corrigendum: The Cbr-DPY-10(Arg92Cys) modification is a reliable co-conversion marker for CRISPR/Cas9 genome editing in Caenorhabditis briggsae.
-
microPublication biology | VOL. 2024
--
01 Jan 2024
Repeat sequence corresponding to the nucleosome length at the opposite end of the pairing center on autosomes in C. elegans.
Yukimasa Shibata
microPublication biology | VOL. 2024
Yukimasa ShibataYukimasa Shibata
01 Jan 2024
View more papers