BACKGROUND: DNA replication initiates at distinct origins in eukaryotic genomes, but the genomic features that define these sites are not well understood. RESULTS: We have taken a combined experimental and bioinformatic approach to identify and characterize origins of replication in three distantly related fission yeasts: Schizosaccharomyces pombe, Schizosaccharomyces octosporus and Schizosaccharomyces japonicus. Using single-molecule deep sequencing to construct amplification-free high-resolution replication profiles, we located origins and identified sequence motifs that predict origin function. We then mapped nucleosome occupancy by deep sequencing of mononucleosomal DNA from the corresponding species, finding that origins tend to occupy nucleosome-depleted regions. CONCLUSIONS: The sequences that specify origins are evolutionarily plastic, with low complexity nucleosome-excluding sequences functioning in S. pombe and S. octosporus, and binding sites for trans-acting nucleosome-excluding proteins functioning in S. japonicus. Furthermore, chromosome-scale variation in replication timing is conserved independently of origin location and via a mechanism distinct from known heterochromatic effects on origin function. These results are consistent with a model in which origins are simply the nucleosome-depleted regions of the genome with the highest affinity for the origin recognition complex. This approach provides a general strategy for understanding the mechanisms that define DNA replication origins in eukaryotes.
BACKGROUND: DNA replication initiates at distinct origins in eukaryotic genomes, but the genomic features that define these sites are not well understood. RESULTS: We have taken a combined experimental and bioinformatic approach to identify and characterize origins of replication in three distantly related fission yeasts: Schizosaccharomyces pombe, Schizosaccharomyces octosporus and Schizosaccharomyces japonicus. Using single-molecule deep sequencing to construct amplification-free high-resolution replication profiles, we located origins and identified sequence motifs that predict origin function. We then mapped nucleosome occupancy by deep sequencing of mononucleosomal DNA from the corresponding species, finding that origins tend to occupy nucleosome-depleted regions. CONCLUSIONS: The sequences that specify origins are evolutionarily plastic, with low complexity nucleosome-excluding sequences functioning in S. pombe and S. octosporus, and binding sites for trans-acting nucleosome-excluding proteins functioning in S. japonicus. Furthermore, chromosome-scale variation in replication timing is conserved independently of origin location and via a mechanism distinct from known heterochromatic effects on origin function. These results are consistent with a model in which origins are simply the nucleosome-depleted regions of the genome with the highest affinity for the origin recognition complex. This approach provides a general strategy for understanding the mechanisms that define DNA replication origins in eukaryotes.
Authors: Timothy D Harris; Phillip R Buzby; Hazen Babcock; Eric Beer; Jayson Bowers; Ido Braslavsky; Marie Causey; Jennifer Colonell; James Dimeo; J William Efcavitch; Eldar Giladi; Jaime Gill; John Healy; Mirna Jarosz; Dan Lapen; Keith Moulton; Stephen R Quake; Kathleen Steinmann; Edward Thayer; Anastasia Tyurina; Rebecca Ward; Howard Weiss; Zheng Xie Journal: Science Date: 2008-04-04 Impact factor: 47.728
Authors: Katie L Mickle; Sunita Ramanathan; Adam Rosebrock; Anna Oliva; Amna Chaudari; Chulee Yompakdee; Donna Scott; Janet Leatherwood; Joel A Huberman Journal: BMC Mol Biol Date: 2007-12-19 Impact factor: 2.946
Authors: Majid Eshaghi; R Krishna M Karuturi; Juntao Li; Zhaoqing Chu; Edison T Liu; Jianhua Liu Journal: PLoS One Date: 2007-08-08 Impact factor: 3.240
Authors: Shan Gao; Jie Xiong; Chunchao Zhang; Brian R Berquist; Rendong Yang; Meng Zhao; Anthony J Molascon; Shaina Y Kwiatkowski; Dongxia Yuan; Zhaohui Qin; Jianfan Wen; Geoffrey M Kapler; Philip C Andrews; Wei Miao; Yifan Liu Journal: Genes Dev Date: 2013-07-24 Impact factor: 11.361