Clare A. Everett scite author profile

Wild male house mice Mus musculus domesticus were collected from the hybrid zone between the John o’Groats race (2n = 32) and the standard race (2n = 40) in northern Scotland. Meiosis in both homozygotes (2n = 32, 36, and 40) and single Robertsonian heterozygotes (2n = 33, 35, and 37) was found to be orderly. At prophase/metaphase I in heterozygotes, a trivalent was formed from the metacentric and two homologous acrocentrics. At pachytene, this trivalent usually had a single side arm at the position of the centromeres, as a result of nonhomologous pairing of the acrocentrics. This side arm persisted into diplotene. Generally only a single chiasma was formed between each acrocentric and the metacentric. Ana-phase I nondisjunction frequencies were estimated as 1.5% for the homozygotes and 2.7% for the heterozygotes. The extent of germ cell death between the pachytene and round spermatid stages was 18 % greater in heterozygotes than in homozygotes. Our results concur with previous studies which indicate that single Robertsonian heterozygotes in wild house mice have near-normal fertility.

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The effect of multiple simple Robertsonian heterozygosity on chromosome pairing and fertility of wild-stock house mice (Mus musculus domesticus)

Wallace

Searle

Everett

2002

Cytogenet Genome Res

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The influence of Robertsonian (Rb) heterozygosity on fertility has been the subject of much study in the house mouse. However, these studies have been largely directed at single simple heterozygotes (heterozygous for a single Rb metacentric) or complex heterozygotes (heterozygous for several to many metacentrics which share common chromosome arms). In this paper we describe studies on male multiple simple heterozygotes, specifically the F₁ products of crosses between wild-stock mice homozygous for four or seven metacentrics and wild-stock mice with a standard all-acrocentric karyotype; these F₁ products were characterized by four and seven trivalents at meiosis I, respectively. Mice with the same karyotype, but two different genetic backgrounds were examined. Although a range of meiotic and fertility studies were conducted, particular emphasis was paid to analysis of chromosome pairing, previously not well-described in multiple simple heterozygous mice. The progression of spermatocytes through prophase I was followed by electron microscopy of surface spread material. As previously shown for single simple Rb heterozygotes, the trivalents that characterize multiple simple heterozygotes initially showed delayed pairing of the centromeric region and later showed side arm formation, resulting from non-homologous pairing by the centromeric ends of the acrocentric chromosomes. In the four trivalent groups of mice, 15 and 32% of trivalents showed unpairing in the centromeric region at mid pachytene; equivalent values were 29 and 39% for the seven trivalent groups. Pairing abnormalities (largely attachments and interlocks between trivalents and between a trivalent and the XY configuration) were observed in 18 and 23% of mid pachytene cells in the four trivalent groups and 36 and 49% of cells in the seven trivalent groups. The greater level of pachytene irregularity (unpairing and pairing abnormalities) in seven versus four trivalent heterozygotes was mirrored in terms of higher anaphase I nondisjunction frequency and lower germ cell counts. However, while pachytene irregularities appear to contribute to germ cell death, examples of male sterility in our material undoubtedly also involve genic incompatibilities.

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The influence of ploidy on the distribution of cells in chimaeric mouse blastocysts

Everett

West

1996

Zygote

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Previous studies of tetraploid ** diploid mouse chimaeras and mosaics have revealed that tetraploid cells do not contribute equally to all tissues of the conceptus. In this study we have shown that, within 30 h of aggregating cleavage stage embryos, tetraploid cells were non-randomly distributed among different tissues of the early blastocyst. They were preferentially allocated to the mural trophectoderm regardless of cell size at the time of aggregation. This early effect may underlie the restricted distribution of tetraploid cells at later stages. We have demonstrated for the first time that ploidy can influence the relative position of blastomeres in the preimplantation embryo.

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A study of meiotic pairing, nondisjunction and germ cell death in laboratory mice carrying Robertsonian translocations

Everett

Searle

Wallace³

1996

Genet. Res.

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Frequencies of anaphase I nondisjunction, germ cell death and pairing abnormalities at pachytene were assessed in male mice singly heterozygous and homozygous for the Robertsonian (Rb) translocations: Rb (1.3)lBnr, Rb(ll. 13)4Bnr and Rb(10. ll)8Bnr. Rb homozygotes showed low frequencies of nondisjunction but substantial germ cell death. This germ cell death could not be attributed to problems at pachytene as Rb homozygotes showed no increase in pairing abnormalities over the (C3H/HeH x 1O1/H)F1 controls. Instead genie factors are involved. Rb heterozygotes showed substantial frequencies of nondisjunction and even greater germ cell death than found in the homozygotes. Pachytene pairing abnormalities were observed and it appears that these, together with genie factors, cause physiological perturbation of meiocytes, thereby promoting germ cell death, with nondisjunction of the trivalent as a sublethal response.

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Clare A. Everett

Male meiosis and gametogenesis in wild house mice (<i>Mus musculus domesticu</i><i>s</i>) from a chromosomal hybrid zone; a comparison between “simple” Robertsonian heterozygotes and homozygotes

The effect of multiple simple Robertsonian heterozygosity on chromosome pairing and fertility of wild-stock house mice <i>(Mus musculus domesticus)</i>

The influence of ploidy on the distribution of cells in chimaeric mouse blastocysts

A study of meiotic pairing, nondisjunction and germ cell death in laboratory mice carrying Robertsonian translocations

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