Eisuke Gotoh scite author profile

A basic principle of cell physiology is that chromosomes condense during mitosis. However, condensation can be uncoupled from mitotic events under certain circumstances. This phenomenon is known as ''premature chromosome condensation (PCC).'' PCC provides insights in the mechanisms of chromosome condensation, thus helping clarifying the key molecular events leading to the mitosis. Besides, PCC has proved to be an useful tool for analyzing chromosomes in interphase. For example, using PCC we can visualize genetic damage shortly after the exposure to clastogenic agents. More than 30 years ago, the first report of PCC in interphase cells fused to mitotic cells using Sendai virus was described (virus-mediated PCC). The method paved the way to a great number of fundamental discoveries in cytogenetics, radiation biology, and related fields, but it has been hampered by technical difficulties. The novel drug-induced PCC method was introduced about 10 years ago. While fusion-induced PCC exploits the action of external maturation/mitosis promoting factor (MPF), migrating from the inducer mitotic cell to the interphase recipient, drug-induced PCC exploits protein phosphatase inhibitors, which can activate endogenous intracellular MPF. This method is much simpler than fusion-induced PCC, and has already proven useful in different fields.

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<b>Inhibition of protein serine/threonine phosphatases directly induces premature chromosome condensation in mammalian somatic </b><b>cells </b>

Gotoh

Asakawa

Kosaka

1995

Biomed. Res.

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rChromosomes usually condense during mitosis, but condensation may be uncoupled from mitotic events under certain circumstances. This phenomenon is known as premature chromosome condensation (PCC). Here we show that 100 nM okadaic acid or calyculin A can induce PCC at any time during the cell cycle of several types of mammalian cells; G1-, S-and G2-PCC were observed. Both okadaic acid and calyculin A are specific inhibitors of type 1 and type 2A protein serine/threonine phosphatases, suggesting that these phosphatases play

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Visualizing the dynamics of chromosome structure formation coupled with DNA replication

Gotoh

2007

Chromosoma

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A basic question of cell biology is how DNA folds to chromosome. Numbers of examples have suggested the involvement of DNA replication in chromosome structure formation. To visualize and identify the dynamics of chromosome structure formation and to elucidate the involvement of DNA replication in chromosome construction, Cy3-2'-deoxyuridine-5'-triphosphate direct-labeled active replicating DNA was observed in prematurely condensed chromosomes (PCCs) under a confocal scanning microscope utilized with drug-induced premature chromosome condensation (PCC) technique that facilitates the visualization of interphase chromatin as condensed chromosome form. S-phase PCCs revealed clearly the drastic dynamics of chromosome formation that transits during S-phase from a 'cloudy nebula' to numerous numbers of 'beads on a string' and finally to 'striped arrays of banding structured chromosome' along with the progress of DNA replication. The number, distribution, and shape of replication foci were also measured in individual subphases of S-phase more precisely than reported previously; maximally, approximately 1,400 foci of 0.35 microm average radius size were scored at the beginning of the S-phase, and the number reduced to approximately 100 at the end of the S-phase. Drug-induced PCC clearly provided the new insight that eukaryote DNA replication is tightly coupled with the chromosome condensation/compaction for the construction of the higher-ordered structure of the eukaryote chromosome.

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Eisuke Gotoh

Chromosome condensation outside of mitosis: Mechanisms and new tools

<b>Inhibition of protein serine/threonine phosphatases directly induces premature chromosome condensation in mammalian somatic </b><b>cells </b>

Visualizing the dynamics of chromosome structure formation coupled with DNA replication

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