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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

On the basis of widespread phylogenetic conservatism, it has been proposed that serologically-defined H-Y antigen is the inducer of primary sex differentiation in mammals, causing the initially indifferent gonad to become a testis rather than an ovary. The proposal has withstood extensive testing in a variety of biological circumstances: XX males have testes and are H-Y+ and fertile XY females lack testicular tissue and are H-Y-; soluble H-Y antigen induces testicular organogenesis in XX indifferent gonads of the fetal calf in culture; H-Y antibody blocks tubular reaggregation of dispersed XY testicular cells, causing them to organize follicular clusters. There is a gonadal receptor for H-Y antigen: fetal ovarian cells that have been exposed to soluble H-Y (released for example by testicular Sertoli cells) take up the molecule and acquire the H-Y+ phenotype; they absorb H-Y antibody in serological tests. Specific uptake of soluble H-Y does not occur in the extra-gonadal tissues. It may be inferred that H-Y antigen is disseminated during embryogenesis and bound by specific receptors in cells of the primordial gonad, and that reaction of H-Y and its receptor signals a program of testicular differentiation, regardless of karyotype. The several anomalies of primary sexual differentiation manifest in such conditions as the XX male, the XX true hermaphrodite, and the XY female can thus reasonably be viewed as specific errors of synthesis, dissemination, and binding of H-Y antigen. H-Y is secreted by 'Daudi' cells, cultured from a human XY Burkitt lymphoma. The Daudi-secreted moiety is a single hydrophobic protein of 18,000 molecular weight. Early attempts to characterize H-Y secreted by testicular Sertoli cells have yielded two molecules, one of 16,500 MW (corresponding to the Daudi-secreted 18,000 MW protein), and one of 31,000 MW. It remains to be ascertained whether both are in fact H-Y antigens, and if so, whether one is a polymer of the other, or whether each represents the product of genes with discrete testis-determining functions.
Mol Cell Biochem 1980 Dec 10
PMID:Primary sex determination: genetics and biochemistry. 701 Jan 18

When the Y chromosome of the laboratory inbred mouse strain C57BL/6 (B6) is replaced by the Y of certain strains of Mus musculus domesticus, testis determination fails and all XY fetuses develop either as hermaphrodites or XY females (XY sex reversal). This suggests the presence of at least two alleles of Sry, the male-determining gene on the Y:M. m. domesticus and B6. The B6 Y chromosome is derived from the Japanese house mouse, M. m. molossinus and therefore carries a molossinus Sry allele. As a first step to determine how the molossinus Sry allele evolved, its distribution pattern was determined in wild mice. The cumulative data of 96 M. musculus samples obtained from 58 geographical locations in Europe, North Africa, and Asia show the molossinus Sry allele is restricted to Japan and the neighboring Asian mainland and confirm that Japanese M. m. molossinus mice were derived in part from a race of M. m. musculus from Korea or Manchuria. Sry polymorphisms, as illustrated by the molossinus Sry allele, can serve as molecular markers for studies on the evolution of wild M. musculus populations and can help determine the role sex determination plays in speciation.
Mol Biol Evol 1994 Nov
PMID:Distribution of the molossinus allele of Sry, the testis-determining gene, in wild mice. 781 26

The open reading frame of the SRY gene has been examined in a series of 22 XY females with clinically defined pure gonadal dysgenesis by direct sequencing of biotinylated PCR product bound to streptavidin coated beads. Amongst the 22 XY females examined, five (two of whom are sisters) were found to have single base changes all within the highly conserved DNA binding (or HMG box) domain. In the remaining 17 cases, the SRY gene sequence was indistinguishable from that found in normal males. In three of the XY females with point mutations, the altered amino acids occur in highly conserved positions leading to non-conservative changes (Arg to Gly at position 5, Met to Thr at position 21 and Arg to Trp at position 76). Examination of the SRY gene from the father's Y chromosome has shown that the mutations at position 5 in patient SHM60 and position 21 in patient HN31 have arisen de novo. In the case of the two sibs, both have identical mutations where a C to T transition in codon 17 has created a TAG termination signal, thus suggesting that the deceased father is likely to be a gonadal mosaic for the mutation. In the case of the mutations at positions 17 and 76, the fathers are not available for investigation and so it has not been possible to determine whether the changes are de novo. These data indicate that the majority of XY females with pure gonadal dysgenesis owe their sex-reversed phenotype to mutations in as yet uncharacterised segments of the SRY gene, or, at other loci acting early in the sex-determining pathway.
Hum Mol Genet 1993 Jun
PMID:Analysis of the SRY gene in 22 sex-reversed XY females identifies four new point mutations in the conserved DNA binding domain. 835 96

Y-chromosomes derived from house mouse populations of Mus domesticus are able to lead to the formation of XY females (i.e. hermaphrodite individuals with both ovarian and testicular tissues) when inserted, by appropriate crosses, into the C57BL/6J genome, which usually carries the Mus musculus Y chromosome. An abnormal interaction between the testis-determining gene on the Y (of domesticus origin) and an autosomal recessive allele (of musculus origin) needed for testicular formation is the likely explanation of this phenomenon. In the present paper we analyse the histological kinetics of gonadal development in hermaphrodites obtained by introducing the Y chromosomes from wild living house mice [from Zagreb, (Croatia) and Hohenentringen (Southern Germany)] into the C57BL/6J genome. Among 88 individuals, 9 XY hermaphrodites were detected, 6 before birth and 3 afterwards. The percentage of the ovarian-type tissues in the ovotestes fell drastically between day 18 of fetal life and day 20 after birth. These findings corroborate and extend those already published for other Y domesticus chromosomes and stress the possible role of Y chromosome differentiation in speciation processes.
Cell Mol Biol (Noisy-le-grand) 1993 Jul
PMID:Further examination of the kinetics of gonadal development in XY female mice. 837 3

XX males and XY females have a sex reversal disorder which can be caused by an abnormal interchange between the X and the Y chromosomes. We have isolated and characterized a novel gene on the Y chromosome, PRKY. This gene is highly homologous to a previously isolated gene from Xp22.3, PRKX, and represents a member of the cAMP-dependent serine threonine protein kinase gene family. Abnormal interchange can occur anywhere on Xp/Yp proximal to SRY. We can show that abnormal interchange happens particularly frequently between PRKX and PRKY. In a collection of 26 XX males and four XY females, between 27 and 35% of the interchanges take place between PRK homologues but at different sites within the gene. PRKY and PRKX are located far from the pseudoautosomal region where XY exchange normally takes place. The unprecedented high sequence identity and identical orientation of PRKY to its homologous partner on the X chromosome, PRKX, explains the high frequency of abnormal pairing and subsequent ectopic recombination, leading to XX males and XY females and to the highest rate of recombination outside the pseudoautosomal region.
Hum Mol Genet 1997 Oct
PMID:Abnormal XY interchange between a novel isolated protein kinase gene, PRKY, and its homologue, PRKX, accounts for one third of all (Y+)XX males and (Y-)XY females. 930 80

The identification of XY females carrying a duplication of a region of the X chromosome (Xp21) led to the hypothesis that a double dose of a gene in the duplicated region causes sex reversal (DSS; dosage sensitive sex reversal). A gene isolated from this region, named DAX-1 (DSS-AHC critical region on the X), encodes a new member of the nuclear hormone receptor family. Here, we describe the isolation of porcine Dax-1 and the analysis of its pattern of expression both during foetal development and in several adult tissues. Dax-1 is expressed in the adrenals, the pituitary gland and the gonads at various stages of differentiation. In gonads, Dax-1 expression starts between 21 and 23 days post coitum in both XX and XY urogenital ridges then continues to be expressed until adult age. The expression in these tissues indicates the involvement of DAX-1 in the development and the function of the reproductive system at multiple levels.
Mol Cell Endocrinol 1997 Nov 30
PMID:Porcine Dax-1 gene: isolation and expression during gonadal development. 945 40

Deletion of the distal short arm of chromosome 9 (9p) has been reported in a number of cases to be associated with gonadal dysgenesis and XY sex reversal, suggesting that this region contains one or more genes required in two copies for normal testis development. Recent studies have greatly narrowed the interval containing this putative autosomal testis-determining gene(s) to the distal portion of 9p24.3. We previously identified DMRT1, a human gene with sequence similarity to genes that regulate the sexual development of nematodes and insects. These genes contain a novel DNA-binding domain, which we named the DM domain. DMRT1 maps to 9p24. 3 and in adults is expressed specifically in the testis. We have investigated the possible role of DM domain genes in 9p sex reversal. We identified a second DM domain gene, DMRT2, which also maps to 9p24.3. We found that point mutations in the coding region of DMRT1 and the DM domain of DMRT2 are not frequent in XY females. We showed by fluorescence in situ hybridization analysis that both genes are deleted in the smallest reported sex-reversing 9p deletion, suggesting that gonadal dysgenesis in 9p-deleted individuals might be due to combined hemizygosity of DMRT1 and DMRT2.
Hum Mol Genet 1999 Jun
PMID:A region of human chromosome 9p required for testis development contains two genes related to known sexual regulators. 1033 30

Sex determining Region of the Y chromosome (SRY) is the Y-borne gene required for male sex determination. Many XY females with complete gonadal dysgenesis carry SRY mutations. We describe here the effects of eight clinically isolated point mutations on the DNA-binding and -bending functions of SRY. We found that the seven mutations in the HMG domain affected the protein's DNA-binding and -bending activities to varying degrees, although all cause complete gonadal dysgenesis. DNA binding was abolished by the R75N and L94P mutations, severely disrupted by the F67V mutation and reduced by the M64R (6-fold), R76P (4-fold), A113T (3-fold), and M78T (1.7-fold) mutations. Of these, variant M64R showed no DNA-bending activity, while M78T caused a mild reduction in DNA bending. The S18N mutation, a familial mutation that lies outside the HMG domain and caused partial gonadal dysgenesis in one patient, had minimal effect on DNA binding and bending. Analysis of the NMR solution structure of the SRY HMG domain bound to DNA suggests that mutations disrupt the protein's conformation (helicity, packing), or interactions at the DNA interface. The degree to which mutations causing complete gonadal dysgenesis affect the DNA-binding activity varies. We propose that there is a threshold level of SRY activity or expression required for testis determination, as we observe that familial mutations have the least effect on SRY activity.
Mol Genet Metab 2002 Nov
PMID:Biochemical defects in eight SRY missense mutations causing XY gonadal dysgenesis. 1240 69

The orphan nuclear receptor DAX1 (dosage-sensitive sex reversal-AHC critical region on the X chromosome gene 1), encoded by the NR0B1 gene, plays important roles in the development of the hypothalamic-pituitary-adrenal/gonadal (HPAG) axis as well as in sex determination. Mutations in NR0B1 cause the X-linked cytomegalic form of adrenal hypoplasia congenita (AHC), and associated hypogonadotropic hypogonadism (HH). Over-expression of NR0B1 results in sex reversal in mice and duplication of the 160kb DSS locus in human patients results in a sex-reversed phenotype (XY females). The purpose of these investigations was to determine if alternatively spliced forms of NR0B1 existed. Analysis of expressed sequence tag data predicted a truncated isoform of DAX1. We confirmed the presence of an alternatively spliced form of NR0B1, which we will refer to as NR0B1A, by reverse transcriptase-polymerase chain reaction (RT-PCR), and will refer to the deduced protein isoform as DAX1A. Sequencing of the NR0B1A cDNA revealed slight differences from the recently described splice form, DAX1alpha. NR0B1A is encoded by NR0B1 exon 1 and exon 2A located within the 3385 nt intron between NR0B1 exons 1 and 2. Exon 2A includes 35 nt of coding sequence. NR0B1A encodes a deduced protein sequence, DAX1A, of 400 amino acids compared with 470 amino acids for DAX1. RT-PCR detected expression of NR0B1A in adrenal gland, testis, ovary, and pancreas. The identification of NR0B1A and the deduced DAX1A requires reinterpretation of many previous experiments involving expression and knockout of NR0B1 and DAX1.
Mol Genet Metab 2004 Dec
PMID:NR0B1A: an alternatively spliced form of NR0B1. 1558 20

Androgen insensitivity syndrome (AIS) is the most common cause of disorders of sex development usually caused by mutations in the androgen receptor (AR) gene. AIS is characterized by a poor genotype-phenotype correlation, and many patients with clinically presumed AIS do not seem to have mutations in the AR gene. We therefore aimed at identifying a biomarker enabling the assessment of the cellular function of the AR as a transcriptional activator. In the first step, we used complementary DNA (cDNA) microarrays for a genome-wide screen for androgen-regulated genes in two normal male primary scrotal skin fibroblast strains compared to two labia majora fibroblast strains from 46,XY females with complete AIS (CAIS). Apolipoprotein D (APOD) and two further transcripts were significantly upregulated by dihydrotestosterone (DHT) in scrotum fibroblasts, while CAIS labia majora cells were unresponsive. Microarray data were well correlated with quantitative real-time polymerase chain reaction (qRT-PCR; R = 0.93). Subsequently, we used qRT-PCR in independent new cell cultures and confirmed the significant DHT-dependent upregulation of APOD in five normal scrotum strains [13.5 +/- 8.2 (SD)-fold] compared with three CAIS strains (1.2 +/- 0.7-fold, p = 0.028; t test) and six partial androgen insensitivity syndrome strains (2 +/- 1.3-fold, p = 0.034; t test). Moreover, two different 17ss-hydroxysteroid dehydrogenase III deficiency labia majora strains showed APOD induction in the range of normal scrotum (9.96 +/- 1.4-fold), supporting AR specificity. Therefore, qRT-PCR of APOD messenger RNA transcription in primary cultures of labioscrotal skin fibroblasts is a promising tool for assessing AR function, potentially allowing a function-based diagnostic evaluation of AIS in the future.
J Mol Med (Berl) 2009 Jun
PMID:Apolipoprotein D (APOD) is a putative biomarker of androgen receptor function in androgen insensitivity syndrome. 1933 Apr 72


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