Densely interconnected transcriptional circuits control cell states in human hematopoiesis.
Cell, 2011/1/21;144(2):296-309.
Novershtern N[1], Subramanian A, Lawton LN, Mak RH, Haining WN, McConkey ME, Habib N, Yosef N, Chang CY, Shay T, Frampton GM, Drake AC, Leskov I, Nilsson B, Preffer F, Dombkowski D, Evans JW, Liefeld T, Smutko JS, Chen J, Friedman N, Young RA, Golub TR, Regev A, Ebert BL
Affiliations
PMID: 21241896DOI: 10.1016/j.cell.2011.01.004
Impact factor: 66.85
Abstract
Though many individual transcription factors are known to regulate hematopoietic differentiation, major aspects of the global architecture of hematopoiesis remain unknown. Here, we profiled gene expression in 38 distinct purified populations of human hematopoietic cells and used probabilistic models of gene expression and analysis of cis-elements in gene promoters to decipher the general organization of their regulatory circuitry. We identified modules of highly coexpressed genes, some of which are restricted to a single lineage but most of which are expressed at variable levels across multiple lineages. We found densely interconnected cis-regulatory circuits and a large number of transcription factors that are differentially expressed across hematopoietic states. These findings suggest a more complex regulatory system for hematopoiesis than previously assumed.
MeSH terms
Gene Expression Profiling; Gene Expression Regulation; Gene Regulatory Networks; Hematopoiesis; Humans; Transcription Factors
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