1. Characterizing and controlling intrinsic biases of lambda exonuclease in nascent strand sequencing reveals phasing between nucleosomes and G-quadruplex motifs around a subset of human replication origins
- Author
-
John M. Urban, Susan A. Gerbi, Michael S. Foulk, and Cinzia Casella
- Subjects
Viral Proteins/metabolism ,DNA polymerase II ,Method ,Replication Origin ,Eukaryotic DNA replication ,Biology ,Origin of replication ,DNA, Ribosomal ,DNA sequencing ,Viral Proteins ,Sequencing by hybridization ,Control of chromosome duplication ,Genetics ,Humans ,Genetics (clinical) ,DNA clamp ,article AT rich sequence controlled study CpG island DNA base composition *DNA replication origin DNA structure GC rich sequence *gene sequence genetic association human human cell MCF 7 cell line *nascent strand sequence *nucleosome priority journal sensitivity and specificity *exonuclease genomic DNA *guanine quadruplex *lambda exonuclease unclassified drug ,DNA replication ,DNA, Ribosomal/chemistry ,Exodeoxyribonucleases/metabolism ,Sequence Analysis, DNA ,Nucleosomes ,GC Rich Sequence ,carbohydrates (lipids) ,G-Quadruplexes ,Exodeoxyribonucleases ,Nucleosomes/chemistry ,Sequence Analysis, DNA/methods ,MCF-7 Cells ,biology.protein - Abstract
Nascent strand sequencing (NS-seq) is used to discover DNA replication origins genome-wide, allowing identification of features for their specification. NS-seq depends on the ability of lambda exonuclease (λ-exo) to efficiently digest parental DNA while leaving RNA-primer protected nascent strands intact. We used genomics and biochemical approaches to determine if λ-exo digests all parental DNA sequences equally. We report that λ-exo does not efficiently digest G-quadruplex (G4) structures in a plasmid. Moreover, λ-exo digestion of nonreplicating genomic DNA (LexoG0) enriches GC-rich DNA and G4 motifs genome-wide. We used LexoG0 data to control for nascent strand–independent λ-exo biases in NS-seq and validated this approach at the rDNA locus. The λ-exo–controlled NS-seq peaks are not GC-rich, and only 35.5% overlap with 6.8% of all G4s, suggesting that G4s are not general determinants for origin specification but may play a role for a subset. Interestingly, we observed a periodic spacing of G4 motifs and nucleosomes around the peak summits, suggesting that G4s may position nucleosomes at this subset of origins. Finally, we demonstrate that use of Na+ instead of K+ in the λ-exo digestion buffer reduced the effect of G4s on λ-exo digestion and discuss ways to increase both the sensitivity and specificity of NS-seq.
- Published
- 2015