Dimeric G-quadruplex motifs-induced NFRs determine strong replication origins in vertebrates

Abstract: Replication of vertebrate genomes is tightly regulated to ensure accurate duplication, but our understanding of the interplay between genetic and epigenetic factors in this regulation remains incomplete. Here, we investigated the involvement of three elements enriched at gene promoters and replication origins: guanine-rich motifs potentially forming G-quadruplexes (pG4s), nucleosome-free regions (NFRs), and the histone variant H2A.Z, in the firing of origins of replication in vertebrates. We show that two pG4s… Show more

“…Recently, a new functional genetic element, pG4s, associated with specific nucleosome-free regions (NFRs), was found to be sufficient for replication initiation. The authors suggested that this might be a strategy for the ORC recognition of origins in eukaryotes [ 80 ].…”

Chromatin’s Influence on Pre-Replication Complex Assembly and Function

“…Recently, a new functional genetic element, pG4s, associated with specific nucleosome-free regions (NFRs), was found to be sufficient for replication initiation. The authors suggested that this might be a strategy for the ORC recognition of origins in eukaryotes [ 80 ].…”

Chromatin’s Influence on Pre-Replication Complex Assembly and Function

Replicating chromatin in the nucleus: A histone variant perspective

Multifunctional histone variants in genome function