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MRNA display selection of a high-affinity, modification-specific phospho-IkappaBalpha-binding fibronectin.


ABSTRACT: The complexity of the human proteome is greatly expanded by post-translational modifications. New tools capable of recognizing these modifications in a sequence-specific fashion provide a route to purify these modified proteins, to alter protein trafficking, and to visualize signal transduction in real time. Here, we have evolved novel, modification-specific ligands that target phosphorylated IkappaBalpha. To do this, we employed mRNA display-based in vitro selection using a 30-trillion-member protein library based on the fibronectin type III domain. The selection yielded one fibronectin molecule, 10C17C25, that binds a phospho-IkappaBalpha peptide with K d = 18 nM and is over 1000-fold specific compared to the nonphosphorylated peptide. 10C17C25 specifically recognizes endogenous phosphorylated IkappaBalpha from mammalian cell extract and stabilizes phospho-IkappaBalpha in vivo. We also incorporated 10C17C25 into a FRET indicator that detects IkappaB kinase (IKK) activity in vitro, demonstrating the utility of selecting designed adaptors for kinase activity sensors.

SUBMITTER: Olson CA 

PROVIDER: S-EPMC2962918 | biostudies-literature | 2008 Aug

REPOSITORIES: biostudies-literature

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mRNA display selection of a high-affinity, modification-specific phospho-IkappaBalpha-binding fibronectin.

Olson C Anders CA   Liao Hsiang-I HI   Sun Ren R   Roberts Richard W RW  

ACS chemical biology 20080701 8


The complexity of the human proteome is greatly expanded by post-translational modifications. New tools capable of recognizing these modifications in a sequence-specific fashion provide a route to purify these modified proteins, to alter protein trafficking, and to visualize signal transduction in real time. Here, we have evolved novel, modification-specific ligands that target phosphorylated IkappaBalpha. To do this, we employed mRNA display-based in vitro selection using a 30-trillion-member p  ...[more]

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2018-02-23 | GSE98029 | GEO