A methyl transferase links the circadian clock to the regulation of alternative splicing

被引:0
作者
Sabrina E. Sanchez
Ezequiel Petrillo
Esteban J. Beckwith
Xu Zhang
Matias L. Rugnone
C. Esteban Hernando
Juan C. Cuevas
Micaela A. Godoy Herz
Ana Depetris-Chauvin
Craig G. Simpson
John W. S. Brown
Pablo D. Cerdán
Justin O. Borevitz
Paloma Mas
M. Fernanda Ceriani
Alberto R. Kornblihtt
Marcelo J. Yanovsky
机构
[1] IFEVA,Department of Ecology & Evolution
[2] Facultad de Agronomía,Division of Plant Sciences
[3] UBA-CONICET,undefined
[4] IFIBYNE,undefined
[5] FCEyN,undefined
[6] UBA-CONICET,undefined
[7] Fundación Instituto Leloir,undefined
[8] IIBBA-CONICET,undefined
[9] University of Chicago,undefined
[10] Centre for Research in Agricultural Genomics (CRAG),undefined
[11] Consortium CSIC-IRTA-UAB,undefined
[12] Genetics Programme,undefined
[13] SCRI,undefined
[14] Invergowrie,undefined
[15] University of Dundee at SCRI,undefined
来源
Nature | 2010年 / 468卷
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摘要
Various biological processes are driven by the day/night cycle to occur at a certain time of day. One way the circadian system exerts these effects is through post-transcriptional regulation. Sanchez et al. show that PRMT5, a protein that transfers methyl groups onto subunits of the spliceosome — the complex that cuts non-protein-coding stretches from pre-RNA — is regulated by the light/dark cycle. This affects alternative splicing of some genes, making them subject to circadian control. This work shows one way by which the environment alters gene expression.
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页码:112 / 116
页数:4
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