期刊
NUCLEIC ACIDS RESEARCH
卷 49, 期 W1, 页码 W304-W316出版社
OXFORD UNIV PRESS
DOI: 10.1093/nar/gkab359
关键词
-
资金
- NIH [U54-HL127624, U24-CA224260, T32-GM062754, OT3-OD025467]
KEA3 is a webserver application used to predict upstream kinases and analyze data from proteomics and phosphoproteomics studies. The background database of KEA3 contains measured and predicted kinase-substrate interactions. Studies show that integrating kinase-substrate and kinase-protein interactions across data sources improves the recovery of the expected kinase.
Phosphoproteomics and proteomics experiments capture a global snapshot of the cellular signaling network, but these methods do not directly measure kinase state. Kinase Enrichment Analysis 3 (KEA3) is a webserver application that infers overrepresentation of upstream kinases whose putative substrates are in a user-inputted list of proteins. KEA3 can be applied to analyze data from phosphoproteomics and proteomics studies to predict the upstream kinases responsible for observed differential phosphorylations. The KEA3 background database contains measured and predicted kinase-substrate interactions (KSI), kinase-protein interactions (KPI), and interactions supported by co-expression and co-occurrence data. To benchmark the performance of KEA3, we examined whether KEA3 can predict the perturbed kinase from single-kinase perturbation followed by gene expression experiments, and phosphoproteomics data collected from kinase-targeting small molecules. We show that integrating KSIs and KPIs across data sources to produce a composite ranking improves the recovery of the expected kinase.
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