Signaling Network Model of Chromatin

Signaling Network Model of Chromatin. Schreiber, S. L. & Bernstein, B. E. Cell, 111(6):771-778, 2002. 626GC Times Cited:129 Cited References Count:74
abstract bibtex

We suggest that common principles underlie both cellular signaling networks and chromatin. To exemplify similarities, we focus on signaling complexes that form at membrane receptors and on nucleosomes. Multiple signal-transducing modifications on side chain residues of receptor tyrosine kinases (RTKs) and histone proteins are used to create docking sites that facilitate proximal relations of enzymes and their substrates. We argue that multiple histone modifications, like RTK modifications, promote switch-like behavior and ensure robustness of the signal, and we compare this interpretation with the histone code hypothesis. This view provides insight into chromatin function and epigenetic inheritance.

@article{Schreiber:2002aa,
	Abstract = {We suggest that common principles underlie both cellular signaling networks and chromatin. To exemplify similarities, we focus on signaling complexes that form at membrane receptors and on nucleosomes. Multiple signal-transducing modifications on side chain residues of receptor tyrosine kinases (RTKs) and histone proteins are used to create docking sites that facilitate proximal relations of enzymes and their substrates. We argue that multiple histone modifications, like RTK modifications, promote switch-like behavior and ensure robustness of the signal, and we compare this interpretation with the histone code hypothesis. This view provides insight into chromatin function and epigenetic inheritance.},
	Author = {Schreiber, S. L. and Bernstein, B. E.},
	Date-Added = {2008-06-09 22:07:12 -0400},
	Date-Modified = {2008-06-09 22:07:12 -0400},
	Journal = {Cell},
	Keywords = {growth-factor receptor; histone; lysine 9; yeast; acetylation ;phosphorylation; methylation; heterochromatin transcription},
	Note = {626GC Times Cited:129 Cited References Count:74},
	Number = {6},
	Pages = {771-778},
	Title = {Signaling Network Model of Chromatin},
	Volume = {111},
	Year = {2002}}

Downloads: 0

{"_id":"i2SRx8DXPdhv6exph","bibbaseid":"schreiber-bernstein-signalingnetworkmodelofchromatin-2002","downloads":0,"creationDate":"2016-02-18T13:03:32.645Z","title":"Signaling Network Model of Chromatin","author_short":["Schreiber, S. L.","Bernstein, B. E."],"year":2002,"bibtype":"article","biburl":"https://dl.dropboxusercontent.com/u/26998770/main.bib","bibdata":{"bibtype":"article","type":"article","abstract":"We suggest that common principles underlie both cellular signaling networks and chromatin. To exemplify similarities, we focus on signaling complexes that form at membrane receptors and on nucleosomes. Multiple signal-transducing modifications on side chain residues of receptor tyrosine kinases (RTKs) and histone proteins are used to create docking sites that facilitate proximal relations of enzymes and their substrates. We argue that multiple histone modifications, like RTK modifications, promote switch-like behavior and ensure robustness of the signal, and we compare this interpretation with the histone code hypothesis. This view provides insight into chromatin function and epigenetic inheritance.","author":[{"propositions":[],"lastnames":["Schreiber"],"firstnames":["S.","L."],"suffixes":[]},{"propositions":[],"lastnames":["Bernstein"],"firstnames":["B.","E."],"suffixes":[]}],"date-added":"2008-06-09 22:07:12 -0400","date-modified":"2008-06-09 22:07:12 -0400","journal":"Cell","keywords":"growth-factor receptor; histone; lysine 9; yeast; acetylation ;phosphorylation; methylation; heterochromatin transcription","note":"626GC Times Cited:129 Cited References Count:74","number":"6","pages":"771-778","title":"Signaling Network Model of Chromatin","volume":"111","year":"2002","bibtex":"@article{Schreiber:2002aa,\n\tAbstract = {We suggest that common principles underlie both cellular signaling networks and chromatin. To exemplify similarities, we focus on signaling complexes that form at membrane receptors and on nucleosomes. Multiple signal-transducing modifications on side chain residues of receptor tyrosine kinases (RTKs) and histone proteins are used to create docking sites that facilitate proximal relations of enzymes and their substrates. We argue that multiple histone modifications, like RTK modifications, promote switch-like behavior and ensure robustness of the signal, and we compare this interpretation with the histone code hypothesis. This view provides insight into chromatin function and epigenetic inheritance.},\n\tAuthor = {Schreiber, S. L. and Bernstein, B. E.},\n\tDate-Added = {2008-06-09 22:07:12 -0400},\n\tDate-Modified = {2008-06-09 22:07:12 -0400},\n\tJournal = {Cell},\n\tKeywords = {growth-factor receptor; histone; lysine 9; yeast; acetylation ;phosphorylation; methylation; heterochromatin transcription},\n\tNote = {626GC Times Cited:129 Cited References Count:74},\n\tNumber = {6},\n\tPages = {771-778},\n\tTitle = {Signaling Network Model of Chromatin},\n\tVolume = {111},\n\tYear = {2002}}\n\n","author_short":["Schreiber, S. L.","Bernstein, B. E."],"key":"Schreiber:2002aa","id":"Schreiber:2002aa","bibbaseid":"schreiber-bernstein-signalingnetworkmodelofchromatin-2002","role":"author","urls":{},"keyword":["growth-factor receptor; histone; lysine 9; yeast; acetylation ;phosphorylation; methylation; heterochromatin transcription"],"downloads":0},"search_terms":["signaling","network","model","chromatin","schreiber","bernstein"],"keywords":["growth-factor receptor; histone; lysine 9; yeast; acetylation ;phosphorylation; methylation; heterochromatin transcription"],"authorIDs":[],"dataSources":["c5japf9eAQRaeMS4h"]}