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Series GSE167257 Query DataSets for GSE167257
Status Public on Mar 25, 2021
Title Neuronal Enhancers are Hotspots for DNA Single-Strand Break Repair [SAR-seq]
Organisms Homo sapiens; Mus musculus; Rattus norvegicus
Experiment type Other
Summary Defects in DNA repair frequently lead to neurodevelopmental and neurodegenerative diseases, underscoring the particular importance of DNA repair in long-lived post-mitotic neurons. The cellular genome is subjected to a constant barrage of endogenous DNA damage, but surprisingly little is known about the identity of the lesion(s) that accumulate in neurons and whether they accrue throughout the genome or at specific loci. Here, we show that post-mitotic neurons accumulate unexpectedly high levels of DNA single-strand breakage at specific sites within the genome. Genome-wide mapping reveals that these single-strand breaks (SSBs) are located within enhancers at or near to CpG dinucleotides and sites of DNA demethylation, and are repaired by PARP1 and XRCC1-dependent mechanisms. Notably, deficiencies in XRCC1-dependent short-patch repair elevate the extent of DNA repair synthesis at neuronal enhancers, whereas deficiencies in long-patch repair reduce synthesis, suggesting that the high steady-state level of SSB repair in neuronal enhancers is sustained by both short-patch and long-patch processes. These data provide the first evidence of site- and cell type-specific SSB repair, revealing unexpected levels of localized and continuous DNA single-strand breakage in neurons. In addition, these data suggest an explanation for the neurodegenerative phenotypes that occur in patients with defective SSB repair.
 
Overall design We developed synthesis-associated with repair sequencing (SAR) to detect DNA repair in postmotitic neuron cells. Combined with ChIP-seqs, SEAL-seq, END-seq and HiC, we were able to study the DNA damage and its repair mechansim in neurons.
 
Contributor(s) Wu W, Hill SE, Nathan WJ, Paiano J, Callen E, Wang D, Shinoda K, van Wietmarschen N, Colón-Mercado JM, Zong D, de Pace R, Shih H, Coon S, Parsadanian M, Pavani R, Hanzlikova H, Park S, Jung SK, McHugh PJ, Canela A, Chen C, Casellas R, Caldecott KW, Ward ME, Nussenzweig A
Citation(s) 33767446
Submission date Feb 22, 2021
Last update date Jun 26, 2021
Contact name Wei Wu
Organization name Center for Excellence in Molecular Cell Science
Department Center for Excellence in Molecular Cell Science
Street address 320 yueyang road
City Shanghai
State/province Shanghai
ZIP/Postal code 200031
Country China
 
Platforms (3)
GPL21626 NextSeq 550 (Mus musculus)
GPL21697 NextSeq 550 (Homo sapiens)
GPL25029 NextSeq 550 (Rattus norvegicus)
Samples (67)
GSM5100400 SAR-seq in iNeuron rep1
GSM5100401 SAR-seq in iNeuron rep2
GSM5100402 SAR-seq in iNeuron rep3
This SubSeries is part of SuperSeries:
GSE167259 Neuronal Enhancers are Hotspots for DNA Single-Strand Break Repair
Relations
BioProject PRJNA704026
SRA SRP307552

Download family Format
SOFT formatted family file(s) SOFTHelp
MINiML formatted family file(s) MINiMLHelp
Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE167257_RAW.tar 7.9 Gb (http)(custom) TAR (of BED, BW)
GSE167257_SARseq_iNeuron_OverlapRep123.peaks.bed.gz 328.3 Kb (ftp)(http) BED
SRA Run SelectorHelp
Processed data are available on Series record
Raw data are available in SRA
Processed data provided as supplementary file

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