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Architecture of the human regulatory network derived from ENCODE data.


ABSTRACT: Transcription factors bind in a combinatorial fashion to specify the on-and-off states of genes; the ensemble of these binding events forms a regulatory network, constituting the wiring diagram for a cell. To examine the principles of the human transcriptional regulatory network, we determined the genomic binding information of 119 transcription-related factors in over 450 distinct experiments. We found the combinatorial, co-association of transcription factors to be highly context specific: distinct combinations of factors bind at specific genomic locations. In particular, there are significant differences in the binding proximal and distal to genes. We organized all the transcription factor binding into a hierarchy and integrated it with other genomic information (for example, microRNA regulation), forming a dense meta-network. Factors at different levels have different properties; for instance, top-level transcription factors more strongly influence expression and middle-level ones co-regulate targets to mitigate information-flow bottlenecks. Moreover, these co-regulations give rise to many enriched network motifs (for example, noise-buffering feed-forward loops). Finally, more connected network components are under stronger selection and exhibit a greater degree of allele-specific activity (that is, differential binding to the two parental alleles). The regulatory information obtained in this study will be crucial for interpreting personal genome sequences and understanding basic principles of human biology and disease.

SUBMITTER: Gerstein MB 

PROVIDER: S-EPMC4154057 | biostudies-literature | 2012 Sep

REPOSITORIES: biostudies-literature

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Architecture of the human regulatory network derived from ENCODE data.

Gerstein Mark B MB   Kundaje Anshul A   Hariharan Manoj M   Landt Stephen G SG   Yan Koon-Kiu KK   Cheng Chao C   Mu Xinmeng Jasmine XJ   Khurana Ekta E   Rozowsky Joel J   Alexander Roger R   Min Renqiang R   Alves Pedro P   Abyzov Alexej A   Addleman Nick N   Bhardwaj Nitin N   Boyle Alan P AP   Cayting Philip P   Charos Alexandra A   Chen David Z DZ   Cheng Yong Y   Clarke Declan D   Eastman Catharine C   Euskirchen Ghia G   Frietze Seth S   Fu Yao Y   Gertz Jason J   Grubert Fabian F   Harmanci Arif A   Jain Preti P   Kasowski Maya M   Lacroute Phil P   Leng Jing Jane JJ   Lian Jin J   Monahan Hannah H   O'Geen Henriette H   Ouyang Zhengqing Z   Partridge E Christopher EC   Patacsil Dorrelyn D   Pauli Florencia F   Raha Debasish D   Ramirez Lucia L   Reddy Timothy E TE   Reed Brian B   Shi Minyi M   Slifer Teri T   Wang Jing J   Wu Linfeng L   Yang Xinqiong X   Yip Kevin Y KY   Zilberman-Schapira Gili G   Batzoglou Serafim S   Sidow Arend A   Farnham Peggy J PJ   Myers Richard M RM   Weissman Sherman M SM   Snyder Michael M  

Nature 20120901 7414


Transcription factors bind in a combinatorial fashion to specify the on-and-off states of genes; the ensemble of these binding events forms a regulatory network, constituting the wiring diagram for a cell. To examine the principles of the human transcriptional regulatory network, we determined the genomic binding information of 119 transcription-related factors in over 450 distinct experiments. We found the combinatorial, co-association of transcription factors to be highly context specific: dis  ...[more]

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