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Journal article

Construction of human activity-based phosphorylation networks.

Abstract:

The landscape of human phosphorylation networks has not been systematically explored, representing vast, unchartered territories within cellular signaling networks. Although a large number of in vivo phosphorylated residues have been identified by mass spectrometry (MS)-based approaches, assigning the upstream kinases to these residues requires biochemical analysis of kinase-substrate relationships (KSRs). Here, we developed a new strategy, called CEASAR, based on functional protein microarra...

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Publication status:
Published

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Publisher copy:
10.1038/msb.2013.12

Authors


Newman, RH More by this author
Woodard, C More by this author
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Journal:
Molecular systems biology
Volume:
9
Pages:
655
Publication date:
2013
DOI:
EISSN:
1744-4292
ISSN:
1744-4292
URN:
uuid:461b0d45-0d2e-4588-82df-46a856629e2b
Source identifiers:
403628
Local pid:
pubs:403628

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