Centromere protein A (CENP‐A) nucleosomes containing the centromere‐specific histone H3 variant CENP‐A represent an epigenetic mark that specifies centromere position. The Mis18 complex is a licensing factor for new CENP‐A deposition via the CENP‐A chaperone, Holliday junction recognition protein (HJURP), on the centromere chromatin. Chicken KINETOCHORE NULL2 (KNL2) (ggKNL2), a Mis18 complex component, has a CENP‐C‐like motif, and our previous study suggested that ggKNL2 directly binds to the CENP‐A nucleosome to recruit HJURP/CENP‐A to the centromere. However, the molecular basis for CENP‐A nucleosome recognition by ggKNL2 has remained unclear. Here, we present the cryo‐EM structure of the chicken CENP‐A nucleosome in complex with a ggKNL2 fragment containing the CENP‐C‐like motif. Chicken KNL2 distinguishes between CENP‐A and histone H3 in the nucleosome using the CENP‐C‐like motif and its downstream region. Both the C‐terminal tail and the RG‐loop of CENP‐A are simultaneously recognized as CENP‐A characteristics. The CENP‐A nucleosome–ggKNL2 interaction is thus essential for KNL2 functions. Furthermore, our structural, biochemical, and cell biology data indicate that ggKNL2 changes its binding partner at the centromere during chicken cell cycle progression.
Centromere protein A (CENP-A) nucleosome is an epigenetic marker that specifies centromere position. The Mis18 complex is a licensing factor for new CENP-A deposition via the CENP-A chaperone, Holliday junction recognition protein (HJURP) on the centromere chromatin. Chicken KINETOCHORE NULL2 (KNL2) (ggKNL2), a Mis18 complex component, has a CENP-C-like motif, and our previous study suggested that ggKNL2 directly binds to the CENP-A nucleosome to recruit HJURP/CENP-A to the centromere. However, the molecular basis for CENP-A nucleosome recognition by ggKNK2 remains unclear. Here, we present the cryo-EM structure of the chicken CENP-A nucleosome in complex with a ggKNL2 fragment containing a CENP-C-like motif. Chicken KNL2 distinguishes between CENP-A and histone H3 in the nucleosome using the CENP-C-like motif and its downstream region. Both the C-terminal tail and RG-loop of CENP-A are simultaneously recognized as CENP-A characteristics. The CENP-A nucleosome-ggKNL2 interaction is thus essential for CENP-A deposition. Furthermore, our structural, biochemical, and cell biology data indicate that ggKNL2 alters its binding partner at the centromere during chicken cell cycle progression.
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