Mary C. Kot scite author profile

Mary C. Kot

4Publications

67Citation Statements Received

31Citation Statements Given

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122

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Affiliations

University of Tennessee at Knoxville

Publications

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Binding of morphologically abnormal sperm to mouse egg zonae pellucidae in vitro

Kot

Handel

1987

Gamete Research

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The ability of morphologically abnormal mouse sperm to bind to the zona pellucida of the egg was examined with techniques of fertilization in vitro. After incubation with sperm, cumulus-free ova were scored by either phase microscopy or scanning electron microscopy for the number and type of sperm bound. The percentages of abnormal sperm bound to zonae were compared to the percentages of abnormal sperm in the inseminating suspension. In general, all abnormal classes (except broadly spatulate sperm) bound to zonae at a frequency significantly lower than their representation in the inseminating suspension. However, when the percentage of abnormal sperm was quite high, no significant difference existed between frequencies of abnormal sperm bound and in the inseminating solution. The percentage of abnormal sperm bound did not increase significantly over time. Scanning electron microscopy studies demonstrated that the association of abnormal sperm with the zona pellucida varied according to sperm morphology. Normal and some abnormal sperm bound at an angle perpendicular to the zona, while more grossly abnormal sperm bound to ova tangentially.

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Spermatogenesis in XO,Sxr mice: Role of the Y chromosome

Kot

Handel

1990

J. Exp. Zool.

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The goal of this investigation was to evaluate the role of the Y chromosome in spermatogenesis by a quantitative and qualitative analysis of spermatogenesis as it occurs in the absence of a significant portion of the Y chromosome, i.e., in XO,Sxr male mice. Although these mice have the testis-determining portion of the Y chromosome on their single X chromosome, they lack most of the Y chromosome. Since it was found that all sperm-specific structures were assembled in a normal spatial and temporal pattern in spermatids of XO,Sxr mice, the genes controlling these structures cannot be located on the Y chromosome outside of the Sxr region, and are more likely to be on autosomes or on the X chromosome. In spite of the assembly of the correct sperm-specific structures, spermatogenesis was not quantitatively normal in XO,Sxr mice and significantly reduced numbers of spermatids were found in the seminiferous tubules of these mice. Furthermore, two size classes of spermatids were found in the testes of XO,Sxr mice, normal and twice-normal size. These findings are suggestive of abnormalities of meiosis in XO,Sxr spermatocytes, which lack one of the two sex chromosomes, and may not implicate function of specific genes on the Y chromosome. Morphological abnormalities of spermatids, which were not unique to XO,Sxr mice, were observed and these may be due to either a defective testicular environment because of reduced numbers of germ cells or to the lack of critical Y chromosome-encoded products. Since pachytene spermatocytes of XO,Sxr mice exhibited a sex vesicle, it can be concluded that the assembly of this structure does not depend on the presence of either a complete Y chromosome or the pairing partner for the X chromosome.

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Genetic control of sex-chromosome inactivation during male meiosis

Handel¹,

Park²,

Kot³

1994

Cytogenet Genome Res

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During meiotic prophase in male mammals, the sex chromosomes are transcriptionally inactivated and form a condensed chromatin domain known as the sex body. It is not known how the assumption of this chromatin configuration is determined and regulated. We used various genetic models to test whether a complete sex-chromosome pair, effective sex-chromosome pairing, or an intact X chromosome is required for sex-body formation or transcription inactivation. The sex chromosome aberrations studied did not interfere with sex-body formation, and there is no evidence for inactivation failure or reactivation of the aberrant sex chromosomes. The results of this study suggest that control of sex-body formation is not intrinsic to the sex chromosomes and thus may be at the level of the testis.

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Role of Sex Chromosomes in the Control of Male Germ‐Cell Differentiation^a

Handel

Hunt

Kot

et al. 1991

Annals of the New York Academy of Sciences

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Mary C. Kot

Binding of morphologically abnormal sperm to mouse egg zonae pellucidae in vitro

Spermatogenesis in XO,Sxr mice: Role of the Y chromosome

Genetic control of sex-chromosome inactivation during male meiosis

Role of Sex Chromosomes in the Control of Male Germ‐Cell Differentiation^a

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Mary C. Kot

Binding of morphologically abnormal sperm to mouse egg zonae pellucidae in vitro

Spermatogenesis in XO,Sxr mice: Role of the Y chromosome

Genetic control of sex-chromosome inactivation during male meiosis

Role of Sex Chromosomes in the Control of Male Germ‐Cell Differentiationa

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Role of Sex Chromosomes in the Control of Male Germ‐Cell Differentiation^a