A gene mapping to the sex-determining region of the mouse Y chromosome is a member of a novel family of embryonically expressed genes
TL;DR: A gene mapping to the sex-determining region of the mouse Y chromosome is deleted in a line of XY female mice mutant for Tdy, and is expressed at a stage during male gonadal development consistent with its having a role in testis determination.
Abstract: A gene mapping to the sex-determining region of the mouse Y chromosome is deleted in a line of XY female mice mutant for Tdy, and is expressed at a stage during male gonadal development consistent with its having a role in testis determination. This gene is a member of a new family of at least five mouse genes, related by an amino-acid motif showing homology to other known or putative DNA-binding domains.
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TL;DR: A search of a 35-kilobase region of the human Y chromosome necessary for male sex determination has resulted in the identification of a new gene, termed SRY (for sex-determining region Y) and proposed to be a candidate for the elusive testis-d determining gene, TDF.
Abstract: A search of a 35-kilobase region of the human Y chromosome necessary for male sex determination has resulted in the identification of a new gene. This gene is conserved and Y-specific among a wide range of mammals, and encodes a testis-specific transcript. It shares homology with the mating-type protein, Mc, from the fission yeast Schizosaccharomyces pombe and a conserved DNA-binding motif present in the nuclear high-mobility-group proteins HMG1 and HMG2. This gene has been termed SRY (for sex-determining region Y) and proposed to be a candidate for the elusive testis-determining gene, TDF.
3,019 citations
TL;DR: It is shown that Sry on a 14-kilobase genomic DNA fragment is sufficient to induce testis differentiation and subsequent male development when introduced into chromosomally female mouse embryos.
Abstract: The initiation of male development in mammals requires one or more genes on the Y chromosome. A recently isolated gene, termed SRY in humans and Sry in mouse, has many of the genetic and biological properties expected of a Y-located testis-determining gene. It is now shown that Sry on a 14-kilobase genomic DNA fragment is sufficient to induce testis differentiation and subsequent male development when introduced into chromosomally female mouse embryos.
2,070 citations
TL;DR: In the mammalian embryo, both sexes are initially morphologically indistinguishable: specific hormones are required for sex-specific development but the establishment of sexual dimorphism is under the control of both local and systemic signals.
Abstract: In the mammalian embryo, both sexes are initially morphologically indistinguishable: specific hormones are required for sex-specific development. Mullerian inhibiting substance and testosterone secreted by the differentiating embryonic testes result in the loss of female (Mullerian) or promotion of male (Wolffian) reproductive duct development, respectively. The signalling molecule Wnt-4 is crucial for female sexual development. At birth, sexual development in males with a mutation in Wnt-4 appears to be normal; however, Wnt-4-mutant females are masculinized—the Mullerian duct is absent while the Wolffian duct continues to develop. Wnt-4 is initially required in both sexes for formation of the Mullerian duct, then Wnt-4 in the developing ovary appears to suppress the development of Leydig cells; consequently, Wnt-4-mutant females ectopically activate testosterone biosynthesis. Wnt-4 may also be required for maintenance of the female germ line. Thus, the establishment of sexual dimorphism is under the control of both local and systemic signals.
1,201 citations
TL;DR: It is suggested that the circles arise from normal splicing processes as a consequence of the unusual genomic structure surrounding the Sry locus in the mouse.
949 citations
Cites background from "A gene mapping to the sex-determini..."
...A sequence was found that is conserved on the Y chromosome of all mammals tested, including marsupials (Sinclair et al., 1990; Gubbay et al., 1990; Foster et al., 1992)....
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TL;DR: The de novo mutation associated with sex reversal provides compelling evidence that SRY is required for male sex determination.
Abstract: The testis-determining factor gene (TDF) lies on the Y chromosome and is responsible for initiating male sex determination. SRY is a gene located in the sex-determining region of the human and mouse Y chromosomes and has many of the properties expected for TDF. Sex reversal in XY females results from the failure of the testis determination or differentiation pathways. Some XY females, with gonadal dysgenesis, have lost the sex-determining region from the Y chromosome by terminal exchange between the sex chromosomes or by other deletions. If SRY is TDF, it would be predicted that some sex-reversed XY females, without Y chromosome deletions, will have suffered mutations in SRY. We have tested human XY females and normal XY males for alterations in SRY using the single-strand conformation polymorphism assay and subsequent DNA sequencing. A de novo mutation was found in the SRY gene of one XY female: this mutation was not present in the patient's normal father and brother. A second variant was found in the SRY gene of another XY female, but in this case the normal father shared the same alteration. The variant in the second case may be fortuitously associated with, or predisposing towards sex reversal; the de novo mutation associated with sex reversal provides compelling evidence that SRY is required for male sex determination.
918 citations
Cites background from "A gene mapping to the sex-determini..."
...By: Cox, Troy Keywords: Sex-Related Gene On Y [2] Sex Determination Processes [3] testis-determining factor [4] In the late 1980s, Peter Goodfellow in London, UK led a team of researchers who showed that the SRY gene in humans [5] codes a protein that causes testes [6] to develop in embryos....
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...edu/keywords/sex-related-gene-y [3] https://embryo....
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...By: Cox, Troy Keywords: Sex-Related Gene On Y [2] Sex Determination Processes [3] testis-determining factor [4] In the late 1980s, Peter Goodfellow in London, UK led a team of researchers who showed that the SRY gene in humans [5] codes a protein that causes testes [6] to develop in embryos....
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TL;DR: A group of programs that will interact with each other has been developed for the Digital Equipment Corporation VAX computer using the VMS operating system.
Abstract: The University of Wisconsin Genetics Computer Group (UWGCG) has been organized to develop computational tools for the analysis and publication of biological sequence data. A group of programs that will interact with each other has been developed for the Digital Equipment Corporation VAX computer using the VMS operating system. The programs available and the conditions for transfer are described.
14,575 citations
TL;DR: 5'-Noncoding sequences have been compiled from 699 vertebrate mRNAs and GCCA/GCCATGG emerges as the consensus sequence for initiation of translation in vertebrates.
Abstract: 5'-Noncoding sequences have been compiled from 699 vertebrate mRNAs. (GCC) GCCA/GCCATGG emerges as the consensus sequence for initiation of translation in vertebrates. The most highly conserved position in that motif is the purine in position -3 (three nucleotides upstream from the ATG codon); 97% of vertebrate mRNAs have a purine, most often A, in that position. The periodical occurrence of G (in positions -3, -6, -9) is discussed. Upstream ATG codons occur in fewer than 10% of vertebrate mRNAs-at-large; a notable exception are oncogene transcripts, two-thirds of which have ATG codons preceding the start of the major open reading frame. The leader sequences of most vertebrate mRNAs fall in the size range of 20 to 100 nucleotides. The significance of shorter and longer 5'-noncoding sequences is discussed.
5,077 citations
TL;DR: A search of a 35-kilobase region of the human Y chromosome necessary for male sex determination has resulted in the identification of a new gene, termed SRY (for sex-determining region Y) and proposed to be a candidate for the elusive testis-d determining gene, TDF.
Abstract: A search of a 35-kilobase region of the human Y chromosome necessary for male sex determination has resulted in the identification of a new gene. This gene is conserved and Y-specific among a wide range of mammals, and encodes a testis-specific transcript. It shares homology with the mating-type protein, Mc, from the fission yeast Schizosaccharomyces pombe and a conserved DNA-binding motif present in the nuclear high-mobility-group proteins HMG1 and HMG2. This gene has been termed SRY (for sex-determining region Y) and proposed to be a candidate for the elusive testis-determining gene, TDF.
3,019 citations
1,264 citations
972 citations