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Molecular & Cellular Proteomics 7:121-131, 2008.
© 2008 by The American Society for Biochemistry and Molecular Biology, Inc.

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Research

Discovering Novel Interactions at the Nuclear Pore Complex Using Bead Halo

A Rapid Method for Detecting Molecular Interactions of High and Low Affinity at Equilibrium ^S

Samir S. Patel and Michael F. Rexach

From the Department of Molecular, Cell, & Developmental Biology, University of California Santa Cruz, Santa Cruz, CA 95064

A highly sensitive, equilibrium-based binding assay termed "Bead Halo" was used here to identify and characterize interactions involving components of the nucleocytoplasmic transport machinery in eukaryotes. Bead Halo uncovered novel interactions between the importin Kap95 and the nucleoporins (nups) Nic96, Pom34, Gle1, Ndc1, Nup84, and Seh1, which likely occur during nuclear pore complex biogenesis. Bead Halo was also used to characterize the molecular determinants for binding between Kap95 and the family of nups that feature multiple phenylalanine-glycine motifs (FG nups). Binding was sensitive to the number of FG motifs present and to amino acid (AA) residues immediately flanking the FG motifs. Also, binding was reduced but not abolished when phenylalanine residues in all FG motifs were replaced by tyrosine or tryptophan. These results suggest flexibility in the binding pockets of Kap95 and synergism in binding FG motifs. The hypothesis that Nup53 and Nup59 bind directly to membranes through a C-terminal amphipathic alpha helix and to DNA via an RNA recognition motif domain was also tested and validated using Bead Halo. The results support a role for these nups in nuclear pore membrane biogenesis and in gene expression. Finally, Bead Halo detected binding of the nups Gle1, Nup60, and Nsp1 to phospholipid bilayers. This may reflect the known interaction between Gle1 and phosphoinositides and suggests similar interactions for Nup60 and Nsp1. As the Bead Halo assay detected molecular interactions in cell lysates, as well as between purified components, it can be adapted for large-scale proteomic studies using automated robotics and microscopy.

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