Nicholas Carls scite author profile

The pink-eyed unstable mutation, p(un), is the result of a 70 kb tandem duplication within the murine pink-eyed, p, gene. Deletion of one copy of the duplicated region by homologous deletion/recombination occurs spontaneously in embryos and results in pigmented spots in the fur and eye. Such deletion events are inducible by a variety of DNA damaging agents, as we have observed previously with both fur- and eye-spot assays. Here we describe a study of the effect of exposure to benzo[a]pyrene (B[a]P) at different times of development on reversion induction in the eye. Previously we, among others, have reported that the retinal pigment epithelium (RPE) displays a position effect variegation phenotype in the pattern of pink-eyed unstable reversions. Following an acute exposure to B[a]P or X-rays on the tenth day of gestation an increased frequency of reversion events was detected in a distinct region of the adult RPE. Examining exposure at different times of eye development reveals that both B[a]P and X-rays result in an increased frequency of reversion events, though the increase was only significant following B[a]P exposure, similar to our previous report limited to exposure on the tenth day of gestation. Examination of B[a]P-exposed RPE in the present study revealed distinct regions where the induced events lie and that the positions of these regions are found at increasing distances from the optic nerve the later the time of exposure. This position effect directly reflects the previously observed developmental pattern of the RPE, namely that cells in the regions most distal from the optic nerve are proliferating most vigorously. The numbers and positions of RPE cells displaying the transformed (pigmented) phenotype strongly advocate the proposal that dividing cells are at highest risk to deletions induced by carcinogens.

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Carcinogens induce reversion of the mouse pink-eyed unstable mutation

Schiestl

Aubrecht

Khogali

et al. 1997

Proc. Natl. Acad. Sci. U.S.A.

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Deletions and other genome rearrangements are associated with carcinogenesis and inheritable diseases. The pink-eyed unstable (p un ) mutation in the mouse is caused by duplication of a 70-kb internal fragment of the p gene. Spontaneous reversion events in homozygous p un ͞p un mice occur through deletion of a duplicated sequence. Reversion events in premelanocytes in the mouse embryo detected as black spots on the gray fur of the offspring were inducible by the carcinogen x-rays, ethyl methanesulfonate, methyl methanesulfonate, ethyl nitrosourea, benzo[a]pyrene, trichloroethylene, benzene, and sodium arsenate. The latter three carcinogens are not detectable with several in vitro or in vivo mutagenesis assays. We studied the molecular mechanism of the carcinogen-induced reversion events by cDNA analysis using reverse transcriptase-PCR method and identified the induced reversion events as deletions. DNA deletion assays may be sensitive indicators for carcinogen exposure.

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Reversion of the mouse pink-eyed unstable mutation induced by low doses of x-rays

Schiestl

Khogali

Carls

1994

Science

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Deletions and other genome rearrangements can be caused by radiation and are associated with carcinogenesis and inheritable diseases. The pink-eyed unstable (p(un)) mutation in the mouse is caused by a gene duplication and reverts to wild type by deletion of one copy. Reversion events in the mouse embryo were detected as black spots on the fur of the animals or microscopically as partially black hair in a background of colorless hair. The frequency of partially black hair was increased by x-rays at very low doses. A linear dose-response relation was found between 1 and 100 centigray.

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Evaluation of the yeast DEL assay with 10 compounds selected by the International Program on Chemical Safety for the evaluation of short-term tests for carcinogens

Carls

Schiestl

1994

Mutation Research/Genetic Toxicology

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Effect of ionizing radiation on transgenerational appearance of p un reversions in mice

Carls¹,

Schiestl²

1999

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Multiple genetic changes are required for the development of a malignant tumor cell and many environmentally induced cancers show a delayed onset of > 20 years following exposure. In fact, the frequency of genetic changes in cancer cells is higher than can be explained by random mutation. A high level of genetic instability in a subpopulation of cells may be caused by a mutator phenotype transmitted through many cell divisions. We have determined the effects of irradiation of parental male mice on the frequency and characteristics of mitotically occurring DNA deletion events at the p(un) locus in the offspring. Reversion of the p(un) marker in mouse embryos is due to deletion of 70 kb of DNA resulting in fur spots in the offspring. We found that irradiation of male mice caused a significantly higher frequency of large spots in the offspring, indicative of the induction of DNA deletions early in embryo development. These deletion events occurred, however, many cell divisions after irradiation. The present data indicate that exposure of the germline to ionizing radiation results in induction of delayed DNA deletions in offspring mice.

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Nicholas Carls

Susceptibility of proliferating cells to benzo[a]pyrene-induced homologous recombination in mice

Carcinogens induce reversion of the mouse pink-eyed unstable mutation

Reversion of the mouse pink-eyed unstable mutation induced by low doses of x-rays

Evaluation of the yeast DEL assay with 10 compounds selected by the International Program on Chemical Safety for the evaluation of short-term tests for carcinogens

Effect of ionizing radiation on transgenerational appearance of p un reversions in mice

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