A molecular mechanism for circadian clock negative feedback     

Duong HA  Robles MS  Knutti D  Weitz CJ 《Science (New York, N.Y.)》2011,332(6036):1436-1439

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PERIOD1-associated proteins modulate the negative limb of the mammalian circadian oscillator   总被引：1，自引：0，他引：1  

Brown SA  Ripperger J  Kadener S  Fleury-Olela F  Vilbois F  Rosbash M  Schibler U 《Science (New York, N.Y.)》2005,308(5722):693-696

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SCFFbxl3 controls the oscillation of the circadian clock by directing the degradation of cryptochrome proteins     

Busino L  Bassermann F  Maiolica A  Lee C  Nolan PM  Godinho SI  Draetta GF  Pagano M 《Science (New York, N.Y.)》2007,316(5826):900-904

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The after-hours mutant reveals a role for Fbxl3 in determining mammalian circadian period     

Godinho SI  Maywood ES  Shaw L  Tucci V  Barnard AR  Busino L  Pagano M  Kendall R  Quwailid MM  Romero MR  O'neill J  Chesham JE  Brooker D  Lalanne Z  Hastings MH  Nolan PM 《Science (New York, N.Y.)》2007,316(5826):897-900

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Transcription of class III genes: formation of preinitiation complexes   总被引：125，自引：0，他引：125  

A B Lassar  P L Martin  R G Roeder 《Science (New York, N.Y.)》1983,222(4625):740-748

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Histone lysine demethylase JARID1a activates CLOCK-BMAL1 and influences the circadian clock     

DiTacchio L  Le HD  Vollmers C  Hatori M  Witcher M  Secombe J  Panda S 《Science (New York, N.Y.)》2011,333(6051):1881-1885

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Regulation of elongating RNA polymerase II by forkhead transcription factors in yeast     

Morillon A  O'Sullivan J  Azad A  Proudfoot N  Mellor J 《Science (New York, N.Y.)》2003,300(5618):492-495

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Condition-dependent transcriptome reveals high-level regulatory architecture in Bacillus subtilis     

Nicolas P  Mäder U  Dervyn E  Rochat T  Leduc A  Pigeonneau N  Bidnenko E  Marchadier E  Hoebeke M  Aymerich S  Becher D  Bisicchia P  Botella E  Delumeau O  Doherty G  Denham EL  Fogg MJ  Fromion V  Goelzer A  Hansen A  Härtig E  Harwood CR  Homuth G  Jarmer H  Jules M  Klipp E  Le Chat L  Lecointe F  Lewis P  Liebermeister W  March A  Mars RA  Nannapaneni P  Noone D  Pohl S  Rinn B  Rügheimer F  Sappa PK  Samson F  Schaffer M  Schwikowski B  Steil L  Stülke J  Wiegert T  Devine KM  Wilkinson AJ  van Dijl JM  Hecker M  Völker U  Bessières P 《Science (New York, N.Y.)》2012,335(6072):1103-1106

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RNA polymerase II transcription blocked by Escherichia coli lac repressor   总被引：13，自引：0，他引：13  

U Deuschle  R A Hipskind  H Bujard 《Science (New York, N.Y.)》1990,248(4954):480-483

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Drosophila dosage compensation involves enhanced Pol II recruitment to male X-linked promoters     

T Conrad  FM Cavalli  JM Vaquerizas  NM Luscombe  A Akhtar 《Science (New York, N.Y.)》2012,337(6095):742-746

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Physical analysis of transcription preinitiation complex assembly on a class II gene promoter   总被引：55，自引：0，他引：55  

M W Van Dyke  R G Roeder  M Sawadogo 《Science (New York, N.Y.)》1988,241(4871):1335-1338

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Direct interaction of RNA polymerase II and mediator required for transcription in vivo     

Soutourina J  Wydau S  Ambroise Y  Boschiero C  Werner M 《Science (New York, N.Y.)》2011,331(6023):1451-1454

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No transcription-translation feedback in circadian rhythm of KaiC phosphorylation     

Tomita J  Nakajima M  Kondo T  Iwasaki H 《Science (New York, N.Y.)》2005,307(5707):251-254

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cAMP-dependent signaling as a core component of the mammalian circadian pacemaker     

O'Neill JS  Maywood ES  Chesham JE  Takahashi JS  Hastings MH 《Science (New York, N.Y.)》2008,320(5878):949-953

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Small CTD phosphatases function in silencing neuronal gene expression     

Yeo M  Lee SK  Lee B  Ruiz EC  Pfaff SL  Gill GN 《Science (New York, N.Y.)》2005,307(5709):596-600

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Mechanism of intrinsic transcription termination and antitermination     

Yarnell WS  Roberts JW 《Science (New York, N.Y.)》1999,284(5414):611-615

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Developmental regulation of two 5S ribosomal RNA genes   总被引：36，自引：0，他引：36  

A P Wolffe  D D Brown 《Science (New York, N.Y.)》1988,241(4873):1626-1632

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Structure-based assembly of protein complexes in yeast     

Aloy P  Böttcher B  Ceulemans H  Leutwein C  Mellwig C  Fischer S  Gavin AC  Bork P  Superti-Furga G  Serrano L  Russell RB 《Science (New York, N.Y.)》2004,303(5666):2026-2029

Images of entire cells are preceding atomic structures of the separate molecular machines that they contain. The resulting gap in knowledge can be partly bridged by protein-protein interactions, bioinformatics, and electron microscopy. Here we use interactions of known three-dimensional structure to model a large set of yeast complexes, which we also screen by electron microscopy. For 54 of 102 complexes, we obtain at least partial models of interacting subunits. For 29, including the exosome, the chaperonin containing TCP-1, a 3'-messenger RNA degradation complex, and RNA polymerase II, the process suggests atomic details not easily seen by homology, involving the combination of two or more known structures. We also consider interactions between complexes (cross-talk) and use these to construct a structure-based network of molecular machines in the cell.  相似文献   

A bacterial enhancer functions to tether a transcriptional activator near a promoter   总被引：50，自引：0，他引：50  

A Wedel  D S Weiss  D Popham  P Dr?ge  S Kustu 《Science (New York, N.Y.)》1990,248(4954):486-490

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Crystal structure of the heterodimeric CLOCK:BMAL1 transcriptional activator complex     

Huang N  Chelliah Y  Shan Y  Taylor CA  Yoo SH  Partch C  Green CB  Zhang H  Takahashi JS 《Science (New York, N.Y.)》2012,337(6091):189-194

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