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Repli-seq: genome-wide analysis of replication timing by next-generation sequencing

• 2017
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Publication Information
Authors Claire Marchal 1 *, Takayo Sasaki 1 *, Daniel Vera 2 , Korey Wilson 1 , Jiao Sima 1 , Juan Carlos Rivera-Mulia 1 , Claudia Trevilla García 1 , Coralin Nogues 1 , Ebtesam Nafie 3 , David M. Gilbert
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publication.type International
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Abstract
Cycling cells duplicate their DNA content during S phase, following a defined program called replication timing (RT). Early and late replicating regions differ in terms of mutation rates, transcriptional activity, chromatin marks and sub-nuclear position. Moreover, RT is regulated during development and is altered in disease. Exploring mechanisms linking RT to other cellular processes in normal and diseased cells will be facilitated by rapid and robust methods with which to measure RT genome wide. Here, we describe a rapid, robust and relatively inexpensive protocol to analyze genome-wide RT by next-generation sequencing (NGS). This protocol yields highly reproducible results across laboratories and platforms. We also provide computational pipelines for analysis, parsing phased genomes using single nucleotide polymorphisms (SNP) for analyzing RT allelic asynchrony, and for direct comparison to Repli-chip data obtained by analyzing nascent DNA by microarrays.