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W2003856152 startingPage "285" @default.
W2003856152 abstract "Transcription factors (TFs) have long been recognized as powerful regulators of cell-type identity and differentiation. As TFs function as constituents of regulatory networks, identification and functional characterization of key interactions within these wider networks will be required to understand how TFs exert their powerful biological functions. The formation of blood cells (hematopoiesis) represents a widely used model system for the study of cellular differentiation. Moreover, specific TFs or groups of TFs have been identified to control the various cell fate choices that must be made when blood stem cells differentiate into more than a dozen distinct mature blood lineages. Because of the relative ease of accessibility, the hematopoietic system represents an attractive experimental system for the development of regulatory network models. Here, we review the modeling efforts carried out to date, which have already provided new insights into the molecular control of blood cell development. We also explore potential areas of future study such as the need for new high-throughput technologies and a focus on studying dynamic cellular systems. Many leukemias arise as the result of mutations that cause transcriptional dysregulation, thus suggesting that a better understanding of transcriptional control mechanisms in hematopoiesis is of substantial biomedical relevance. Moreover, lessons learned from regulatory network analysis in the hematopoietic system are likely to inform research on less experimentally tractable tissues." @default.
W2003856152 created "2016-06-24" @default.
W2003856152 creator A5017318024 @default.
W2003856152 creator A5045868291 @default.
W2003856152 creator A5063484535 @default.
W2003856152 date "2012-02-14" @default.
W2003856152 modified "2023-09-24" @default.
W2003856152 title "Establishing the stem cell state: insights from regulatory network analysis of blood stem cell development" @default.
W2003856152 cites W1522303915 @default.
W2003856152 cites W1590938212 @default.
W2003856152 cites W1593116832 @default.
W2003856152 cites W1719320996 @default.
W2003856152 cites W1844361913 @default.
W2003856152 cites W1966969776 @default.
W2003856152 cites W1970894097 @default.
W2003856152 cites W1971713026 @default.
W2003856152 cites W1972736348 @default.
W2003856152 cites W1973035870 @default.
W2003856152 cites W1974074916 @default.
W2003856152 cites W1974612283 @default.
W2003856152 cites W1975213528 @default.
W2003856152 cites W1977099733 @default.
W2003856152 cites W1979764137 @default.
W2003856152 cites W1984407446 @default.
W2003856152 cites W1991766825 @default.
W2003856152 cites W199379996 @default.
W2003856152 cites W1996351707 @default.
W2003856152 cites W1997227717 @default.
W2003856152 cites W1998500203 @default.
W2003856152 cites W2000355031 @default.
W2003856152 cites W2001545635 @default.
W2003856152 cites W2001764493 @default.
W2003856152 cites W2005388700 @default.
W2003856152 cites W2006386075 @default.
W2003856152 cites W2008025461 @default.
W2003856152 cites W2010348699 @default.
W2003856152 cites W2010847848 @default.
W2003856152 cites W2011239808 @default.
W2003856152 cites W2021773905 @default.
W2003856152 cites W2022650810 @default.
W2003856152 cites W2022859149 @default.
W2003856152 cites W2023167533 @default.
W2003856152 cites W2024575580 @default.
W2003856152 cites W2027255730 @default.
W2003856152 cites W2027703497 @default.
W2003856152 cites W2027914338 @default.
W2003856152 cites W2031263707 @default.
W2003856152 cites W2041514505 @default.
W2003856152 cites W2043977568 @default.
W2003856152 cites W2044550834 @default.
W2003856152 cites W2047342532 @default.
W2003856152 cites W2051740914 @default.
W2003856152 cites W2057876838 @default.
W2003856152 cites W2061425021 @default.
W2003856152 cites W2061656021 @default.
W2003856152 cites W2066895902 @default.
W2003856152 cites W2068728784 @default.
W2003856152 cites W2070015044 @default.
W2003856152 cites W2071245400 @default.
W2003856152 cites W2072549627 @default.
W2003856152 cites W2074337170 @default.
W2003856152 cites W2080961105 @default.
W2003856152 cites W2082425943 @default.
W2003856152 cites W2083632015 @default.
W2003856152 cites W2083782960 @default.
W2003856152 cites W2090160722 @default.
W2003856152 cites W2090511909 @default.
W2003856152 cites W2092549514 @default.
W2003856152 cites W2093368239 @default.
W2003856152 cites W2097184672 @default.
W2003856152 cites W2107214213 @default.
W2003856152 cites W2110244627 @default.
W2003856152 cites W2125827936 @default.
W2003856152 cites W2125987139 @default.
W2003856152 cites W2128794366 @default.
W2003856152 cites W2128940002 @default.
W2003856152 cites W2129633255 @default.
W2003856152 cites W2132278571 @default.
W2003856152 cites W2135782683 @default.
W2003856152 cites W2139050530 @default.
W2003856152 cites W2147654197 @default.
W2003856152 cites W2153492159 @default.
W2003856152 cites W2153624566 @default.
W2003856152 cites W2154183199 @default.
W2003856152 cites W2154699417 @default.
W2003856152 cites W2156083214 @default.
W2003856152 cites W2160304318 @default.
W2003856152 cites W2165397654 @default.
W2003856152 cites W2165453201 @default.
W2003856152 cites W2170455035 @default.
W2003856152 cites W2260864551 @default.
W2003856152 cites W2292512535 @default.
W2003856152 doi "https://doi.org/10.1002/wsbm.1163" @default.
W2003856152 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22334489" @default.
W2003856152 hasPublicationYear "2012" @default.
W2003856152 type Work @default.
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