The structure of (CENP-A-H4)(2) reveals physical features that mark centromeres.

Abstract

Centromeres are specified epigenetically, and the histone H3 variant, CENP-A, is assembled into the chromatin of all active centromeres1. Divergence from H3 raises the possibility that CENP-A generates unique chromatin features to physically mark centromere location. The crystal structure of the sub-nucleosomal heterotetramer reported here reveals three distinguishing properties encoded by the residues that comprise the CENP-A Targeting Domain (CATD2): (1) a CENP-A/CENP-A interface that is substantially rotated relative to the H3/H3 interface, (2) a protruding loop L1 of the opposite charge as on H3, and (3) strong hydrophobic contacts that rigidify the CENP-A/H4 interface. Residues involved in the CENP-A/CENP-A rotation are required for efficient incorporation into centromeric chromatin suggesting specificity for an unconventional nucleosome shape. DNA topological analysis indicates that CENP-A-containing nucleosomes are nonetheless octameric with conventional left-handed DNA wrapping, in contrast to other recent proposals3-6. Our results indicate rather that CENP-A marks centromere location by restructuring the nucleosome from within its folded histone core.