Structural insights into the ability of nucleoplasmin to assemble and chaperone histone octamers for DNA deposition

• Published in: Scientific reports Vol. 9; no. 1; pp. 9487 - 14
• Main Authors: Franco, Aitor, Arranz, Rocío, Fernández-Rivero, Noelia, Velázquez-Campoy, Adrián, Martín-Benito, Jaime, Segura, Joan, Prado, Adelina, Valpuesta, José M., Muga, Arturo
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 01.07.2019; Nature Publishing Group
• Subjects: 101/28; 42/35; 631/45/56; 631/535/1258/1259; 82/16; 82/29; 82/80; 82/83; 96/34; 96/35; Animals; Avian Proteins - chemistry; Avian Proteins - metabolism; Chickens; Chromatin; Conformation; Deoxyribonucleic acid; DNA; DNA - chemistry; DNA - metabolism; Histones - chemistry; Histones - metabolism; Humanities and Social Sciences; multidisciplinary; Nucleoplasmins - chemistry; Nucleoplasmins - metabolism; Nucleosomes; Nucleosomes - chemistry; Nucleosomes - metabolism; Post-translation; Science; Science (multidisciplinary); Xenopus laevis; Xenopus Proteins - chemistry; Xenopus Proteins - metabolism
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/s41598-019-45726-7

Nucleoplasmin (NP) is a pentameric histone chaperone that regulates the condensation state of chromatin in different cellular processes. We focus here on the interaction of NP with the histone octamer, showing that NP could bind sequentially the histone components to assemble an octamer-like particle, and crosslinked octamers with high affinity. The three-dimensional reconstruction of the NP/octamer complex generated by single-particle cryoelectron microscopy, revealed that several intrinsically disordered tail domains of two NP pentamers, facing each other through their distal face, encage the histone octamer in a nucleosome-like conformation and prevent its dissociation. Formation of this complex depended on post-translational modification and exposure of the acidic tract at the tail domain of NP. Finally, NP was capable of transferring the histone octamers to DNA in vitro , assembling nucleosomes. This activity may have biological relevance for processes in which the histone octamer must be rapidly removed from or deposited onto the DNA.