Literature DB >> 29599440

Genome-wide analysis of replication timing by next-generation sequencing with E/L Repli-seq.

Claire Marchal1, Takayo Sasaki1, Daniel Vera2, Korey Wilson1, Jiao Sima1, Juan Carlos Rivera-Mulia1, Claudia Trevilla-García1, Coralin Nogues1, Ebtesam Nafie3, David M Gilbert1,2.   

Abstract

This protocol is an extension to: Nat. Protoc. 6, 870-895 (2014); doi:10.1038/nprot.2011.328; published online 02 June 2011Cycling 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 subnuclear position. Moreover, RT is regulated during development and is altered in diseases. Here, we describe E/L Repli-seq, an extension of our Repli-chip protocol. E/L Repli-seq is a rapid, robust and relatively inexpensive protocol for analyzing RT by next-generation sequencing (NGS), allowing genome-wide assessment of how cellular processes are linked to RT. Briefly, cells are pulse-labeled with BrdU, and early and late S-phase fractions are sorted by flow cytometry. Labeled nascent DNA is immunoprecipitated from both fractions and sequenced. Data processing leads to a single bedGraph file containing the ratio of nascent DNA from early versus late S-phase fractions. The results are comparable to those of Repli-chip, with the additional benefits of genome-wide sequence information and an increased dynamic range. We also provide computational pipelines for downstream analyses, for parsing phased genomes using single-nucleotide polymorphisms (SNPs) to analyze RT allelic asynchrony, and for direct comparison to Repli-chip data. This protocol can be performed in up to 3 d before sequencing, and requires basic cellular and molecular biology skills, as well as a basic understanding of Unix and R.

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Year:  2018        PMID: 29599440      PMCID: PMC6044726          DOI: 10.1038/nprot.2017.148

Source DB:  PubMed          Journal:  Nat Protoc        ISSN: 1750-2799            Impact factor:   13.491


  53 in total

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2.  Genome-scale analysis of replication timing: from bench to bioinformatics.

Authors:  Tyrone Ryba; Dana Battaglia; Benjamin D Pope; Ichiro Hiratani; David M Gilbert
Journal:  Nat Protoc       Date:  2011-06-02       Impact factor: 13.491

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Journal:  Cell       Date:  2013-08-15       Impact factor: 41.582

4.  Genome-wide analysis of replication timing in mammalian cells: troubleshooting problems encountered when comparing different cell types.

Authors:  Vishnu Dileep; Ruth Didier; David M Gilbert
Journal:  Methods       Date:  2012-06-06       Impact factor: 3.608

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Journal:  Nature       Date:  2015-02-19       Impact factor: 49.962

6.  Allele-specific analysis of DNA replication origins in mammalian cells.

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7.  Genetic variation in human DNA replication timing.

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Journal:  Cell       Date:  2014-11-13       Impact factor: 41.582

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10.  Murine esBAF chromatin remodeling complex subunits BAF250a and Brg1 are necessary to maintain and reprogram pluripotency-specific replication timing of select replication domains.

Authors:  Shin-Ichiro Takebayashi; Ienglam Lei; Tyrone Ryba; Takayo Sasaki; Vishnu Dileep; Dana Battaglia; Xiaolin Gao; Peng Fang; Yong Fan; Miguel A Esteban; Jiong Tang; Gerald R Crabtree; Zhong Wang; David M Gilbert
Journal:  Epigenetics Chromatin       Date:  2013-12-13       Impact factor: 4.954
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  48 in total

1.  RT States: systematic annotation of the human genome using cell type-specific replication timing programs.

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Journal:  Bioinformatics       Date:  2019-07-01       Impact factor: 6.937

2.  Replication timing alterations in leukemia affect clinically relevant chromosome domains.

Authors:  Juan Carlos Rivera-Mulia; Takayo Sasaki; Claudia Trevilla-Garcia; Naoto Nakamichi; David J H F Knapp; Colin A Hammond; Bill H Chang; Jeffrey W Tyner; Meenakshi Devidas; Jared Zimmerman; Kyle N Klein; Vivek Somasundaram; Brian J Druker; Tanja A Gruber; Amnon Koren; Connie J Eaves; David M Gilbert
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3.  Distinct features of nucleolus-associated domains in mouse embryonic stem cells.

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4.  DNA copy-number measurement of genome replication dynamics by high-throughput sequencing: the sort-seq, sync-seq and MFA-seq family.

Authors:  Dzmitry G Batrakou; Carolin A Müller; Rosemary H C Wilson; Conrad A Nieduszynski
Journal:  Nat Protoc       Date:  2020-02-12       Impact factor: 13.491

5.  Genome-wide analysis of DNA replication and DNA double-strand breaks using TrAEL-seq.

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Journal:  Elife       Date:  2020-09-21       Impact factor: 8.140

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Authors:  Mark M Pomerantz; Xintao Qiu; Yanyun Zhu; David Y Takeda; Wenting Pan; Sylvan C Baca; Alexander Gusev; Keegan D Korthauer; Tesa M Severson; Gavin Ha; Srinivas R Viswanathan; Ji-Heui Seo; Holly M Nguyen; Baohui Zhang; Bogdan Pasaniuc; Claudia Giambartolomei; Sarah A Alaiwi; Connor A Bell; Edward P O'Connor; Matthew S Chabot; David R Stillman; Rosina Lis; Alba Font-Tello; Lewyn Li; Paloma Cejas; Andries M Bergman; Joyce Sanders; Henk G van der Poel; Simon A Gayther; Kate Lawrenson; Marcos A S Fonseca; Jessica Reddy; Rosario I Corona; Gleb Martovetsky; Brian Egan; Toni Choueiri; Leigh Ellis; Isla P Garraway; Gwo-Shu Mary Lee; Eva Corey; Henry W Long; Wilbert Zwart; Matthew L Freedman
Journal:  Nat Genet       Date:  2020-07-20       Impact factor: 38.330

8.  Continuous-Trait Probabilistic Model for Comparing Multi-species Functional Genomic Data.

Authors:  Yang Yang; Quanquan Gu; Yang Zhang; Takayo Sasaki; Julianna Crivello; Rachel J O'Neill; David M Gilbert; Jian Ma
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9.  Identifying cis Elements for Spatiotemporal Control of Mammalian DNA Replication.

Authors:  Jiao Sima; Abhijit Chakraborty; Vishnu Dileep; Marco Michalski; Kyle N Klein; Nicolas P Holcomb; Jesse L Turner; Michelle T Paulsen; Juan Carlos Rivera-Mulia; Claudia Trevilla-Garcia; Daniel A Bartlett; Peiyao A Zhao; Brian K Washburn; Elphège P Nora; Katerina Kraft; Stefan Mundlos; Benoit G Bruneau; Mats Ljungman; Peter Fraser; Ferhat Ay; David M Gilbert
Journal:  Cell       Date:  2018-12-27       Impact factor: 41.582

10.  High-Throughput Single-Cell Sequencing with Linear Amplification.

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Journal:  Mol Cell       Date:  2019-09-05       Impact factor: 17.970
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