TY - JOUR T1 - Mechanism of RanGTP priming H2A-H2B release from Kap114 in an atypical RanGTP•Kap114•H2A-H2B complex JF - bioRxiv DO - 10.1101/2022.11.22.517512 SP - 2022.11.22.517512 AU - Jenny Jiou AU - Joy M. Shaffer AU - Natalia E. Bernades AU - Ho Yee Joyce Fung AU - Juliana Kikumoto Dias AU - Sheena D’Arcy AU - Yuh Min Chook Y1 - 2023/01/01 UR - http://biorxiv.org/content/early/2023/01/23/2022.11.22.517512.abstract N2 - Previously we showed that the nuclear import receptor Importin-9 wraps around the H2A-H2B core to chaperone and transport it from the cytoplasm to the nucleus. However, unlike most nuclear import systems where RanGTP dissociates cargoes from their importins, RanGTP binds stably to the Importin-9•H2A-H2B complex and formation of the ternary RanGTP•Importin-9•H2A-H2B complex facilitates H2A-H2B release to the assembling nucleosome. It was unclear how RanGTP and the cargo H2A-H2B can bind simultaneously to an importin, and how interactions of the three components position H2A-H2B for nucleosome assembly. Here we show cryo-EM structures of Importin-9•RanGTP and of its yeast homolog Kap114, including Kap114•RanGTP, Kap114•H2A-H2B, and RanGTP•Kap114•H2A-H2B to explain how the conserved Kap114 binds H2A-H2B and RanGTP simultaneously and how the GTPase primes histone transfer to the nucleosome. In the ternary complex, RanGTP binds to the N-terminal repeats of Kap114 in the same manner as in the Kap114/Importin-9•RanGTP complex, and H2A-H2B binds via its acidic patch to the Kap114 C-terminal repeats much like in the Kap114/Importin-9•H2A-H2B complex. Ran binds to a different conformation of Kap114 in the ternary RanGTP•Kap114•H2A-H2B complex. Here, Kap114 no longer contacts the H2A-H2B surface proximal to the H2A docking domain that drives nucleosome assembly, positioning it for transfer to the assembling nucleosome.Significance Statement Histones and their chaperone networks are typically conserved in eukaryotes. The yeast importin Kap114 and its human homolog Importin-9 share low sequence identity, but both are primary nuclear import receptors for the core histone heterodimer H2A-H2B. Cryo-EM structures of Kap114•H2A-H2B, Kap114•RanGTP and Importin-9•RanGTP complexes show homologous structure and function for Kap114 and Importin-9. In the nucleus, RanGTP binding to Kap114/Imp9•H2A-H2B does not release H2A-H2B, but RanGTP binds to form an atypical ternary complex. Structure of the ternary RanGTP•Kap114•H2A-H2B complex explains how the GTPase and cargo bind simultaneously to Kap114 and how the presence of Ran in the complex primes H2A-H2B transfer to assembling nucleosomes.Competing Interest StatementThe authors have declared no competing interest. ER -