Genome-wide analysis of mammalian promoter architecture and evolution

被引:0
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作者
Piero Carninci
Albin Sandelin
Boris Lenhard
Shintaro Katayama
Kazuro Shimokawa
Jasmina Ponjavic
Colin A M Semple
Martin S Taylor
Pär G Engström
Martin C Frith
Alistair R R Forrest
Wynand B Alkema
Sin Lam Tan
Charles Plessy
Rimantas Kodzius
Timothy Ravasi
Takeya Kasukawa
Shiro Fukuda
Mutsumi Kanamori-Katayama
Yayoi Kitazume
Hideya Kawaji
Chikatoshi Kai
Mari Nakamura
Hideaki Konno
Kenji Nakano
Salim Mottagui-Tabar
Peter Arner
Alessandra Chesi
Stefano Gustincich
Francesca Persichetti
Harukazu Suzuki
Sean M Grimmond
Christine A Wells
Valerio Orlando
Claes Wahlestedt
Edison T Liu
Matthias Harbers
Jun Kawai
Vladimir B Bajic
David A Hume
Yoshihide Hayashizaki
机构
[1] Genome Exploration Research Group,Department of Bioengineering
[2] RIKEN Genomic Sciences Center (GSC),Department of Medicine
[3] RIKEN Yokohama Institute,Department of Molecular Medicine, National Public Health Instititute, Department of Medical Genetics
[4] 1-7-22 Suehiro-cho,MRC Functional Genetics Unit, Department of Physiology
[5] Tsurumi-ku,undefined
[6] Genome Science Laboratory,undefined
[7] Discovery Research Institute,undefined
[8] RIKEN Wako Institute,undefined
[9] 2-1 Hirosawa,undefined
[10] Center for Genomics and Bioinformatics,undefined
[11] Karolinska Institutet,undefined
[12] Berzelius v. 35,undefined
[13] UK Medical Research Council (MRC) Human Genetics Unit,undefined
[14] Western General Hospital,undefined
[15] University of Oxford,undefined
[16] Australian Research Council (ARC) Special Research Centre for Functional and Applied Genomics,undefined
[17] Institute for Molecular Bioscience,undefined
[18] The University of Queensland,undefined
[19] Knowledge Extraction Laboratory,undefined
[20] Institute for Infocomm Research,undefined
[21] 21 Heng Mui Keng Terrace,undefined
[22] University of California,undefined
[23] San Diego,undefined
[24] Broadband Communication Service Business Unit,undefined
[25] Network Service Solution Business Group,undefined
[26] NTT Software Corporation,undefined
[27] Teisan Kannai Bldg. 209,undefined
[28] Yamashita-cho Naka-ku,undefined
[29] Karolinska Institute,undefined
[30] Huddinge University Hospital,undefined
[31] The Giovanni Armenise–Harvard Foundation Laboratory,undefined
[32] Sector of Neurobiology,undefined
[33] International School for Advanced Studies-Scuola Internazionale Superiore Studi Avanzati (I.S.A.S.-S.I.S.S.A.),undefined
[34] AREA Science Park,undefined
[35] Sector of Neurobiology,undefined
[36] I.S.A.S.-S.I.S.S.A.,undefined
[37] AREA Science Park,undefined
[38] Dulbecco Telethon Institute,undefined
[39] Institute of Genetics and Biophysics,undefined
[40] Consiglio Nazionale delle Ricerche (IGB CNR),undefined
[41] Epigenetics and Genome Reprogramming Laboratory,undefined
[42] Genome Institute of Singapore,undefined
[43] Kabushiki Kaisha Dnaform,undefined
[44] 1-3-35,undefined
[45] Mita,undefined
[46] Minato-ku,undefined
[47] South African National Bioinformatics Institute,undefined
[48] University of the Western Cape,undefined
[49] Private Bag X17,undefined
[50] Yokohama City University,undefined
来源
Nature Genetics | 2006年 / 38卷
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摘要
Mammalian promoters can be separated into two classes, conserved TATA box–enriched promoters, which initiate at a well-defined site, and more plastic, broad and evolvable CpG-rich promoters. We have sequenced tags corresponding to several hundred thousand transcription start sites (TSSs) in the mouse and human genomes, allowing precise analysis of the sequence architecture and evolution of distinct promoter classes. Different tissues and families of genes differentially use distinct types of promoters. Our tagging methods allow quantitative analysis of promoter usage in different tissues and show that differentially regulated alternative TSSs are a common feature in protein-coding genes and commonly generate alternative N termini. Among the TSSs, we identified new start sites associated with the majority of exons and with 3′ UTRs. These data permit genome-scale identification of tissue-specific promoters and analysis of the cis-acting elements associated with them.
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页码:626 / 635
页数:9
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