Barbara L. Yates scite author profile

Exchange-type chromosome aberrations produced by ionizing radiation or restriction enzymes are believed to result from pairwise interaction of DNA double-strand breaks (dsb). In addition to dicentrics, such aberrations may include higher-order polycentrics (tricentrics, tetracentrics, etc.). We have developed computer programs that calculate the probability of the various polycentrics for a given average number of pairwise interactions. Two models are used. Model I incorporates kinetic competition between restitution, complete exchanges (illegitimate recombination events), and incomplete exchanges. Model II allows unrestituted breaks even if there is no recombination. The models were applied to experimental observations of aberrations produced in G1 Chinese hamster ovary cells after electroporation with the restriction enzyme PvuII, which produces blunt-end dsb. We found, experimentally and theoretically, that there was a maximum in the number and multiplicity of polycentrics per cell: beyond a certain PvuII concentration no additional or higher-order polycentrics were produced. Computer-generated relationships, which were remarkably similar for both models and for all values of the adjustable parameters, were found between dicentrics per cell and higher-order polycentrics per cell. Excellent agreement was found between the experimental observations and the consensus theoretical curve relating tricentrics per cell to dicentrics per cell. The observed number of higher polycentrics per cell for a given number of dicentrics per cell was somewhat larger than the consensus theoretical prediction. The observed number of centric rings per cell was markedly larger than the consensus theoretical value, presumably owing to intrachromosomal localization ('proximity effects'). The computer models also provided estimates for the adjustable parameters; for example, in model I the fraction of incomplete exchanges was found to be about 35%.

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Induction of Chromosome Damage by Restriction Enzymes during Mitosis

Morgan

Valcarcel²,

Columna³

et al. 1991

Radiation Research

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Once electroporated into the nucleus of eukaryotic cells, restriction enzymes will bind at specific DNA sequences and cleave DNA to make double-strand breaks. These induced breaks can lead to chromosome aberrations and consequently offer one approach to determining the mechanism(s) of aberration formation. Because the higher-order structure of DNA in eukaryotic cells might influence the ability of restriction enzymes to locate their recognition sequence, bind, and cleave DNA, we have investigated whether enzymes will cut DNA during metaphase when the chromosomes are most condensed. Chinese hamster ovary cells synchronized in mitosis and treated with either AluI or Sau3AI showed few chromosome aberrations when held in mitosis for 1, 2, or 3 h after enzyme treatment. However, some disruption of chromosome morphology was seen, especially after exposure to Sau3AI. When cells were allowed to complete one cell cycle after enzyme treatment in the preceding mitosis, there was extensive chromosome damage, with the most abundant type of lesion being the interstitial deletion. It appears that restriction enzymes will cleave the highly condensed DNA in mitotic cells but that decondensation, DNA replication, and recondensation are required before the aberrations are manifested.

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Restriction enzyme-induced DNA double-strand breaks as a model system for cellular responses to DNA damage

Yates

Valcarcel

Morgan

1992

International Journal of Radiation Oncology*Biology*Physics

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Barbara L. Yates

Development of a reliable Corylus sp. reference database through the implementation of a DNA fingerprinting test

Nonhomologous DNA end rejoining in chromosomal aberration formation

Modelling the Formation of Polycentric Chromosome Aberrations

Induction of Chromosome Damage by Restriction Enzymes during Mitosis

Restriction enzyme-induced DNA double-strand breaks as a model system for cellular responses to DNA damage

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