Expression in yeast of binding regions of karyopherins α and β inhibits nuclear import and cell growth

Abstract

Using truncated forms of recombinant yeast karyopherins α and β in in vitro binding assays, we mapped the regions of karyopherin α that bind to karyopherin β and the regions of karyopherin β that interact with karyopherin α and with Ran-GTP. Karyopherin α’s binding region for karyopherin β was localized to its N-terminal domain, which contains several clusters of basic residues, whereas karyopherin β’s binding region for karyopherin α was localized to an internal region containing two clusters of acidic residues. Karyopherin β’s binding region for Ran-GTP overlaps with that for karyopherin α and comprises at least one of the two acidic clusters required for karyopherin α binding in addition to further downstream determinants not required for karyopherin α binding. Overexpression in yeast of fragments containing either karyopherin β’s binding region for α and Ran-GTP or karyopherin α’s binding region for β resulted in sequestration of most of the cytosolic karyopherin α or karyopherin β, respectively, in complexes containing the truncated proteins. As these binding region-containing fragments lack other domains required for function of the corresponding protein, the overexpression of either fragment also inhibited in vivo nuclear import of a model reporter protein as well as cell growth.

• solution binding assay
• binding determinants
• green fluorescent protein