Paola Vagnarelli scite author profile

SummaryWe have used a human artificial chromosome (HAC) to manipulate the epigenetic state of chromatin within an active kinetochore. The HAC has a dimeric α-satellite repeat containing one natural monomer with a CENP-B binding site, and one completely artificial synthetic monomer with the CENP-B box replaced by a tetracycline operator (tetO). This HAC exhibits normal kinetochore protein composition and mitotic stability. Targeting of several tet-repressor (tetR) fusions into the centromere had no effect on kinetochore function. However, altering the chromatin state to a more open configuration with the tTA transcriptional activator or to a more closed state with the tTS transcription silencer caused missegregation and loss of the HAC. tTS binding caused the loss of CENP-A, CENP-B, CENP-C, and H3K4me2 from the centromere accompanied by an accumulation of histone H3K9me3. Our results reveal that a dynamic balance between centromeric chromatin and heterochromatin is essential for vertebrate kinetochore activity.

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Condensin Is Required for Nonhistone Protein Assembly and Structural Integrity of Vertebrate Mitotic Chromosomes

Hudson¹,

Vagnarelli²,

et al. 2003

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The dramatic condensation of chromosomes that occurs during mitosis is widely thought to be largely controlled by a protein complex termed condensin. Here, we describe a conditional knockout of the condensin subunit ScII/SMC2 in chicken DT40 cells. In cells lacking this condensin subunit, chromosome condensation is delayed, but ultimately reaches near-normal levels. However, these chromosomes are structurally compromised. Kinetochores appear normal, but the localization of nonhistone proteins such as topoisomerase II and INCENP is aberrant. Both proteins also fail to partition into the chromosome scaffold fraction, which appears to be largely missing in the absence of condensin. Furthermore, the chromosomes lack structural integrity, as defined by an assay that tests the stability of the chromosomal higher-order structure. Thus, a major function of condensin is to promote the correct association of nonhistone proteins with mitotic chromosomes, and this is essential for establishment of a robust chromosome structure.

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Chromosomal passengers: the four-dimensional regulation of mitotic events

2004

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Chromosomal passengers are proteins that are involved in coordinating the chromosomal and cytoskeletal events of mitosis. The passengers are present in cells as a complex with at least four members: Aurora B, a protein kinase; inner centromeric protein, an activation and targeting subunit; Survivin (function unknown) and Borealin (function also unknown). The kinase is activated at the onset of mitosis, at least partly accomplished by regulation of the levels of its constituents. As mitosis progresses, the kinase complex moves to a highly choreographed series of locations in the mitotic cell, activating key substrates at precise locations and specific times. Functions that require chromosomal passenger activity include chromatin modification (phosphorylation of histone H3), correction of kinetochore attachment errors, aspects of the spindle assembly checkpoint, assembly of a stable bipolar spindle and the completion of cytokinesis. The chromosomal passenger complex provides an essential mechanism for mitotic regulation.

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