Genome-wide analysis of DNA replication and double strand breaks by TrAEL-seq

We have designed a methodology for capture of DNA 3' ends that allows mapping of resected DNA breaks, stalled replication forks and also normal replication fork progression. This Transferase-activated end ligation or TrAEL-seq method involves ligation of a functionalised linker to DNA 3' ends followed by fragmentation, purification of adaptor ligated fragments, second adaptor ligation and library amplification. The major advantages of TrAEL-seq compared to other available methods are: i) an ability to map double strand breaks after resection, ii) excellent sensitivity and signal-to-noise in detecting replication fork stalling and iii) ability to map replication fork progression in unsynchronised, unlabelled populations of both yeast and mammalian cells. The samples provided here were selected to demonstrate different aspects of TrAEL-seq activity: the SfiI and dmc1 datasets shows capture of 3' extended single strand DNA. The other yeast datasets show replication and replication fork stalling information. The RAF and RAF-GAL grown yeast samples show the effect transcriptional induction on replication fork progression. The hESC samples show the capacity to derive replication profiles from mammalian cells. Overall design: TrAEL-seq libraries for a yeast wild-types and mutants, along with END-seq controls and TrAEL-seq libraries from hESCs