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Publication Abstract from PubMed

Classical nuclear localization signals (cNLSs), comprising one (monopartite cNLSs) or two clusters of basic residues connected by a 10-12 residue linker (bipartite cNLSs), are recognized by the nuclear import factor importin-alpha. The cNLSs bind along a concave groove on importin-alpha; however, specificity determinants of cNLSs remain poorly understood. We present a structural and interaction analysis study of importin-alpha binding to both designed and naturally occurring high-affinity cNLS-like sequences; the peptide inhibitors Bimax1 and Bimax2, and cNLS peptides of cap-binding protein 80. Our data suggest that cNLSs and cNLS-like sequences can achieve high affinity through maximizing interactions at the importin-alpha minor site, and by taking advantage of multiple linker region interactions. Our study defines an extended set of binding cavities on the importin-alpha surface, and also expands on recent observations that longer linker sequences are allowed, and that long-range electrostatic complementarity can contribute to cNLS-binding affinity. Altogether, our study explains the molecular and structural basis of the results of a number of recent studies, including systematic mutagenesis and peptide library approaches, and provides an improved level of understanding on the specificity determinants of a cNLS. Our results have implications for identifying cNLSs in novel proteins.

Structural Basis of High-Affinity Nuclear Localization Signal Interactions with Importin-alpha,Marfori M, Lonhienne TG, Forwood JK, Kobe B Traffic. 2012 Jan 16. doi: 10.1111/j.1600-0854.2012.01329.x. PMID:22248489^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.