Drosophila CENP-C is essential for centromere identity
- PMID: 20862486
- DOI: 10.1007/s00412-010-0293-6
Drosophila CENP-C is essential for centromere identity
Abstract
Centromeres are specialized chromosomal domains that direct mitotic kinetochore assembly and are defined by the presence of CENP-A (CID in Drosophila) and CENP-C. While the role of CENP-A appears to be highly conserved, functional studies in different organisms suggest that the precise role of CENP-C in kinetochore assembly is still under debate. Previous studies in vertebrate cells have shown that CENP-C inactivation causes mitotic delay, chromosome missegregation, and apoptosis; however, in Drosophila, the role of CENP-C is not well-defined. We have used RNA interference depletion in S2 cells to address this question and we find that depletion of CENP-C causes a kinetochore null phenotype, and consequently, the spindle checkpoint, kinetochore-microtubule interactions, and spindle size are severely misregulated. Importantly, we show that CENP-C is required for centromere identity as CID, MEI-S332, and chromosomal passenger proteins fail to localize in CENP-C depleted cells, suggesting a tight communication between the inner kinetochore proteins and centromeres. We suggest that CENP-C might fulfill the structural roles of the human centromere-associated proteins not identified in Drosophila.
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