Journal ArticleDOI
Primary genetic control of somatic sexual differentiation in a mammal
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TLDR
This work has found evidence in a marsupial mammal for extensive sexual dimorphisms which precede any morphological differentiation of the gonads, suggesting that the classical view of mammalian sexual differentiation may have over-emphasized the role of testicular hormones, and overlooked earlier genetic effects.Abstract:
The classical view of mammalian sexual differentiation is that a gene on the Y chromosome transforms the indifferent gonad into a testis. The Leydig cells then secrete androgen which stimulates the development of the male reproductive tract, and the Sertoli cells secrete Mullerian inhibitory substance which inhibits the development of the female reproductive tract. In the absence of a testis, the Mullerian duct develops into the Fallopian tubes, uterus and vagina. Thus the whole of sexual differentiation is thought to be hormonally mediated as a consequence of this initial genetic determination of gonadal sex. We have found evidence in a marsupial mammal for extensive sexual dimorphisms which precede any morphological differentiation of the gonads. Thus the classical view of mammalian sexual differentiation may have over-emphasized the role of testicular hormones, and overlooked earlier genetic effects.read more
Citations
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Journal ArticleDOI
The organizational-activational hypothesis as the foundation for a unified theory of sexual differentiation of all mammalian tissues.
TL;DR: A unified theory of sexual differentiation that applies to all mammalian tissues is proposed that explains many sex differences in phenotype, in diverse tissues and at all levels of analysis from the molecular to the behavioral.
Journal ArticleDOI
The genetics of sex differences in brain and behavior.
TL;DR: The evidence for direct genetic effects in behavioral and brain sex differences is reviewed, including the 'four core genotypes' model and sex differences in the midbrain dopaminergic system, specifically focusing on the role of Sry.
Journal ArticleDOI
The Kinship Theory of Genomic Imprinting
TL;DR: This work has shown that at autosomal loci subject to random X inactivation, the process is predicted to lead to quantitative differences of expression between maternal and paternal alleles but not to complete silencing of one allele.
Journal ArticleDOI
Evolution of sex determination and the Y chromosome: SRY -related sequences in marsupials
Jamie W. Foster,Francine E. Brennan,Gregory K. Hampikian,Peter N. Goodfellow,Andrew H. Sinclair,Robin Lovell-Badge,Lynne Selwood,Marilyn B. Renfree,Desmond W. Cooper,Jennifer A. Marshall Graves +9 more
TL;DR: Comparisons of eutherian and metatherian Y-located SRY sequences suggest rapid evolution of these genes, especially outside the region encoding the DNA-binding HMG box.
Journal ArticleDOI
Sex-related differences in developmental rates of bovine embryos produced and cultured in vitro.
TL;DR: Evidence is presented that bovine male embryos generally develop to more advanced stages than do females during the first 8 days after insemination in vitro, which suggest that sex‐related gene expression affects the development of embryos soon after activation of the embryonic genome and well before gonadal differentiation.
References
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Book
Reproductive physiology of marsupials
TL;DR: The sexual differentiation and development of marsupials and the evolution of mammalian reproduction is studied in detail.
Book ChapterDOI
Studies on sex differentiation in mammals.
TL;DR: The evidence of the freemartins suggests that presumptive ovaries, if submitted to an appropriate influence, probably the two kinds of fetal testicular hormones, still may develop testicle-like structures in the place of ovarian follicles.
Journal ArticleDOI
The hormonal control of sexual development
TL;DR: This work has demonstrated that not all sexual dimorphisms are controlled by hormones, and has led to the development of new paradigms to explain the hormonal mechanisms mediating sexual differentiation.
Journal ArticleDOI
Altered sex ratio of live young after transfer of fast‐ and slow‐developing mouse embryos
TL;DR: The sex ratio of live young from the fast- and slow-developing embryos was significantly shifted toward the male and to the female, respectively, in the four groups of eight-cell mouse embryos cultured to blastocyst stage.