Computer-assisted curation of a human regulatory core network from the biological literature | Zendy

Philippe Thomas | Zendy; Pawel Durek | Zendy; Illés Solt | Zendy; Bertram Klinger | Zendy; Franziska Witzel | Zendy; Pascal Schulthess | Zendy; Yvonne Mayer | Zendy; Domonkos Tikk | Zendy; Nils Blüthgen | Zendy; Ulf Leser | Zendy

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Computer-assisted curation of a human regulatory core network from the biological literature

Author(s) -

Philippe Thomas,

Pawel Durek,

Illés Solt,

Bertram Klinger,

Franziska Witzel,

Pascal Schulthess,

Yvonne Mayer,

Domonkos Tikk,

Nils Blüthgen,

Ulf Leser

Publication year - 2014

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btu795

Subject(s) - computer science , core (optical fiber) , computational biology , common core , biological network , data science , biology , telecommunications

A highly interlinked network of transcription factors (TFs) orchestrates the context-dependent expression of human genes. ChIP-chip experiments that interrogate the binding of particular TFs to genomic regions are used to reconstruct gene regulatory networks at genome-scale, but are plagued by high false-positive rates. Meanwhile, a large body of knowledge on high-quality regulatory interactions remains largely unexplored, as it is available only in natural language descriptions scattered over millions of scientific publications. Such data are hard to extract and regulatory data currently contain together only 503 regulatory relations between human TFs.

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