Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Query: EC:3.1.6.1 (
sulfatase
)
3,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The region surrounding the steroid sulfatase (STS) locus on Xp22.3 is of particular interest since it represents a deletion hot spot, shares homology with the proximal long arm of the
Y chromosome
(Yq11.2), and contains genes for several well-described X-linked disorders. Here we describe yeast artificial chromosomes (YACs) covering 450 kb around the
STS
gene. Eight YAC clones were isolated from a human YAC library. Their
STS
exon content was determined and the overlap of the clones characterized. Two of the YAC clones were found to contain the entire
STS
gene. The most proximal and the most distal ends of the YAC contig were cloned but neither of them crossed the breakpoints in any of the previously described patients with entire
STS
gene deletions. This is consistent with deletions larger than 500 kb in all these patients. One of the YAC clones was found to contain sequences from the
STS
pseudogene on Yq11.2. Two anonymous DNA sequences, GMGXY19 and GMGXY3, previously mapped in the vicinity of the
STS
locus, were found within the YAC contig and their assignment with respect to the
STS
locus was thus possible. This contig is useful for the overlap cloning of the Xp22.3 region and for reverse genetic strategies for the isolation of disease genes in the region. Furthermore, it may provide insight into the molecular mechanisms of deletion and translocation events on Xp22.3 and in the evolution of sex chromosomes.
...
PMID:Isolation and characterization of a yeast artificial chromosome (YAC) contig around the human steroid sulfatase gene. 173 66
There is substantial evidence that many XX males arise from an X/Y interchange, so that a terminal Xp segment carrying the Xg locus, but not the neighboring steroid sulfatase (STS) locus, is replaced by part of the
Y chromosome
. We show here that one of the two X chromosomes of an XX male with low intracellular levels of
STS
does not express the
STS
gene.
...
PMID:An XX male with a single STS gene dose. 657 29
Comparative in situ hybridization in various primate species has revealed a pseudoautosomal location for the human ANT3 gene and an X-specific location for the steroid sulfatase (STS) gene throughout the higher primate species up to the New World monkeys. However, ANT3 and
STS
map together on an autosome of two prosimian species of the genus Lemur and Eulemur. These results suggest an autosome-to-X/Y translocation after the simians radiated from the prosimians, resulting in a pseudoautosomal location of genes such as ANT3 and
STS
. In simian primates,
STS
then became X-specific by a pericentric inversion in the
Y chromosome
followed by mutational inactivation of the Y allele.
...
PMID:ANT3 and STS are autosomal in prosimian lemurs: implications for the evolution of the pseudoautosomal region. 781 20
X-linked ichthyosis results from steroid sulfatase (STS) deficiency; 90% of affected patients have a complete deletion of the entire 146 kb
STS
gene on the distal X chromosome short arm (Xp22.3). In these families prenatal diagnosis and carrier testing can be completed in 2 days by hybridizing simultaneously 2 different cosmid probes labeled with fluorescein or Texas red and counterstaining interphase nuclear DNA with DAPI. An
STS
gene probe labeled with Texas red hybridizes specifically to the steroid sulfatase gene on the X chromosome. A second flanking probe labeled with fluorescein hybridizes to both the normal
Y chromosome
and normal and
STS
deleted X chromosomes. In this fashion the interphase nuclei of normal males, affected males, normal females, and carrier females can be distinguished unambiguously. Because normal males and carrier females each show two yellow-green fluorescein spots and one Texas red
STS
spot, use of this test prenatally requires determining fetal sex independently with repetitive X and
Y chromosome
-specific probes. This procedure can be used with lymphocytes, direct and cultured chorionic villus cells, direct and cultured amniocytes, and fibroblasts. Similar methods are anticipated to be useful for rapid diagnostic assessment of other aneuploid gene disorders.
...
PMID:Prenatal in situ hybridization test for deleted steroid sulfatase gene. 836 7
The spontaneously hypertensive rat (SHR) has a
Y chromosome
locus that increases blood pressure. This locus requires an androgen receptor and testosterone for maximum expression. Steroid sulfatase (
STS
) catalyzes the conversion of steroid sulfates to their active nonconjugated form. In some mammals the steroid sulfatase locus (Sts) is on the
Y chromosome
, although the rat Sts is on the X chromosome. We measured
STS
activity levels in SHR and normotensive Wistar Kyoto (WKY) males. SHR had significantly higher
STS
activity in testes, adrenal gland, liver, and hypothalamus. The Km values for
STS
in the two strains were not significantly different; thus, activity differences were likely due to differences in enzyme amounts.
STS
activity was measured in the backcross strains SHR/y and SHR/a to test and/or confirm a
Y chromosome
influence on
STS
.
STS
activity levels in these strains were intermediate between those of SHR and WKY. Because the blood pressures of SHR/y and SHR/a were also intermediate between SHR and WKY, the
STS
activity could be a secondary response to the hypertension. An alternative hypotheses is that a regulatory locus in addition to the structural locus is responsible for
STS
activity levels, and this regulatory locus is on the rat
Y chromosome
. Further study is needed to discriminate between these possibilities, and until the second hypothesis can be eliminated, the Sts locus or its modifier loci remain a potential component of the
Y chromosome
hypertensive locus.
...
PMID:Steroid sulfatase and the Y chromosome hypertensive locus of the spontaneously hypertensive rat. 853 76
An obligatory crossing-over event between the X and Y chromosomes in mammals occurs at each male meiosis within the 2.6 Mb of DNA defining the pseudoautosomal region (PAR). Genes located within or near the human PAR have homologous copies on the X and Y chromosomes, escape X inactivation and appear to be highly divergent throughout evolution. We have characterized the genomic structure of two genes from a recently identified cluster of
sulfatase
genes (ARSD and ARSE) located in the Xp22.3 region, and of their homologs on the
Y chromosome
. Our results indicate that the ARSD and ARSE genes from within this cluster have a conserved genomic organization, shared also by another Xp22.3 gene, STS, but completely different from that of all the other
sulfatase
genes. Sequence analysis of the Y-linked homologs indicate that they represent truncated pseudogenes. Sequence identity values between the X and Y copies of each gene is on average 91%, significantly higher than the values obtained by comparing different members of the family. FISH mapping experiments performed in several primate species revealed an identical localization of the X-linked copies to that in man, but different localizations of the Y homologs. Together, our data indicate that the cluster of
sulfatase
genes on human Xp22.3 was created through duplication events which probably occurred in an ancestral PAR, and support the view that the PAR has undergone multiple changes during recent mammalian evolution.
...
PMID:Characterization of a cluster of sulfatase genes on Xp22.3 suggests gene duplications in an ancestral pseudoautosomal region. 884 34
