about
How MCM loading and spreading specify eukaryotic DNA replication initiation sitesSingle-stranded DNA library preparation from highly degraded DNA using T4 DNA ligase.Replicating Large Genomes: Divide and Conquer.Eukaryotic replication origins: Strength in flexibility.ORChestrating the human DNA replication program.Selectivity of ORC binding sites and the relation to replication timing, fragile sites, and deletions in cancersDNA replication origins-where do we begin?Genome-wide identification and characterisation of human DNA replication origins by initiation site sequencing (ini-seq).H3K9me3 demethylase Kdm4d facilitates the formation of pre-initiative complex and regulates DNA replication.The Replication of Frataxin Gene Is Assured by Activation of Dormant Origins in the Presence of a GAA-Repeat Expansion.Human mismatch repair system balances mutation rates between strands by removing more mismatches from the lagging strand.Does DNA replication direct locus-specific recombination during host immune evasion by antigenic variation in the African trypanosome?Order from clutter: selective interactions at mammalian replication origins.Conflict Resolution in the Genome: How Transcription and Replication Make It Work.Spatiotemporal coupling and decoupling of gene transcription with DNA replication origins during embryogenesis in C. elegans.Anatomy of Mammalian Replication DomainsDNA Replication Origins and Fork Progression at Mammalian TelomeresMechanisms of DNA replication termination.The Balance between Recombination Enzymes and Accessory Replicative Helicases in Facilitating Genome Duplication.Pif1-family helicases cooperatively suppress widespread replication-fork arrest at tRNA genes.H3S10ph broadly marks early-replicating domains in interphase ESCs and shows reciprocal antagonism with H3K9me2.Replication timing and nuclear structure.Unearthing worm replication origins.DNA replication through a chromatin environment.Conservation and Variation in Strategies for DNA Replication of Kinetoplastid Nuclear Genomes.Similarity in replication timing between polytene and diploid cells is associated with the organization of the Drosophila genome.A mechanism for epigenetic control of DNA replication.[How genomic approaches help the understanding of the initiation of DNA replication].The eukaryotic bell-shaped temporal rate of DNA replication origin firing emanates from a balance between origin activation and passivation.DNA Topoisomerase I differentially modulates R-loops across the human genomeTranscription-Replication Conflict Orientation Modulates R-Loop Levels and Activates Distinct DNA Damage ResponsesDevelopmental and cancer-associated plasticity of DNA replication preferentially targets GC-poor, lowly expressed and late-replicating regionsHigh-resolution visualization of H3 variants during replication reveals their controlled recycling
P2860
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P2860
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
2016年论文
@zh
2016年论文
@zh-cn
name
Replication landscape of the human genome
@ast
Replication landscape of the human genome
@en
type
label
Replication landscape of the human genome
@ast
Replication landscape of the human genome
@en
prefLabel
Replication landscape of the human genome
@ast
Replication landscape of the human genome
@en
P2093
P2860
P50
P356
P1476
Replication landscape of the human genome
@en
P2093
Claude Thermes
Malik Kahli
Maud Silvain
Yan Jaszczyszyn
Yimin Shen
Yves d'Aubenton-Carafa
P2860
P2888
P356
10.1038/NCOMMS10208
P407
P577
2016-01-11T00:00:00Z