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Structural Basis for CAL1-Mediated Centromere Maintenance
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Summary
Centromeres are microtubule attachment sites on chromosomes defined by the enrichment of CENP-A-containing nucleosomes. To preserve centromere identity, CENP-A must be escorted to centromeres by a CENP-A-specific chaperone for deposition. Despite this essential requirement, many eukaryotes differ in the composition of players involved in centromere maintenance highlighting the plasticity of this process. In humans, CENP-A recognition and centromere targeting is achieved by HJURP and the Mis18 complex, respectively. Here, using crystal structures, we show how
Drosophila
CAL1, an evolutionarily distinct CENP-A chaperone, targets CENP-A to the centromere receptor CENP-C without the requirement of the Mis18 complex: while the N-terminal CAL1 fragment (CAL1
1-160
) wraps around CENP-A/H4 through multiple physical contacts, the C-terminal CAL1 fragment (CAL1
893-914
) directly binds CENP-C cupin dimer. Our work shows CAL1, though divergent at the primary structure, employs evolutionarily conserved and adaptive structural principles to recognise CENP-A/H4 and CENP-C providing insights into the minimalistic principles underlying centromere maintenance.
Title: Structural Basis for CAL1-Mediated Centromere Maintenance
Description:
Summary
Centromeres are microtubule attachment sites on chromosomes defined by the enrichment of CENP-A-containing nucleosomes.
To preserve centromere identity, CENP-A must be escorted to centromeres by a CENP-A-specific chaperone for deposition.
Despite this essential requirement, many eukaryotes differ in the composition of players involved in centromere maintenance highlighting the plasticity of this process.
In humans, CENP-A recognition and centromere targeting is achieved by HJURP and the Mis18 complex, respectively.
Here, using crystal structures, we show how
Drosophila
CAL1, an evolutionarily distinct CENP-A chaperone, targets CENP-A to the centromere receptor CENP-C without the requirement of the Mis18 complex: while the N-terminal CAL1 fragment (CAL1
1-160
) wraps around CENP-A/H4 through multiple physical contacts, the C-terminal CAL1 fragment (CAL1
893-914
) directly binds CENP-C cupin dimer.
Our work shows CAL1, though divergent at the primary structure, employs evolutionarily conserved and adaptive structural principles to recognise CENP-A/H4 and CENP-C providing insights into the minimalistic principles underlying centromere maintenance.
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