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Review
. 2009 Dec;108(12):904-11.
doi: 10.1016/S0929-6646(10)60002-2.

Suppression of genomic instabilities caused by chromosome mis-segregation: a perspective from studying BubR1 and Sgo1

Wei Dai  1
Affiliations
Review

Suppression of genomic instabilities caused by chromosome mis-segregation: a perspective from studying BubR1 and Sgo1

Wei Dai. J Formos Med Assoc. 2009 Dec.

Abstract

Aneuploidy is a major manifestation of chromosomal instability, which is defined as a numerical abnormality of chromosomes in diploid cells. It is highly prevalent in a variety of human malignancies. Increased chromosomal instability is the major driving force for tumor development and progression. To suppress genomic stability during cell division, eukaryotic cells have evolved important molecular mechanisms, commonly referred to as checkpoints. The spindle checkpoint ensures that cells with defective mitotic spindles or a defective interaction between the spindles and kinetochores do not initiate chromosomal segregation during mitosis. Extensive studies have identified and characterized more than a dozen genes that play important roles in the regulation of the spindle checkpoint in mammalian cells. During the past decade, we have carried out extensive investigation of the role of BubR1 (Bub1-related kinase) and Sgo1 (shugoshin 1), two important gene products that safeguard accurate chromosome segregation during mitosis. This mini-review summarizes our studies, as well as those by other researchers in the field, on the functions of these two checkpoint proteins and their molecular regulation during mitosis. Further elucidation of the molecular mechanisms of the spindle checkpoint regulation has the potential to identify important mitotic targets for rational anticancer drug design.

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Figures

Figure 1
Figure 1
Modifications of BubR1 during mitosis.
Figure 2
Figure 2
Dual function of Sgo 1 in maintaining chromosomal stability during mitosis.
See this image and copyright information in PMC

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