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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)
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
We recently reported the isolation of two new members of the
sulfatase
gene family, arylsulfatase D (ARSD) and E (
ARSE
), located approximately 50 kb from each other in the Xp22.3 region. Mutation analysis indicated
ARSE
as the gene responsible for X-linked recessive chondrodysplasia punctata. Expression of the
ARSE
gene in COS cells resulted in a heat-labile
arylsulfatase
activity that was inhibited by warfarin. At the same time, we detected the presence of a 1.2-kb fragment located at approximately 60 kb from ARSD and
ARSE
with significant homology to these two genes, suggesting the existence of another
sulfatase
gene, arylsulfatase F (ARSF), in Xp22.3. We have used a combined approach of long-range genomic sequencing and screening of cDNA libraries to isolate the ARSF gene. Expression of the ARSF cDNA in COS cells resulted in a heat-labile
arylsulfatase
activity that is not inhibited by warfarin, supporting our hypothesis that only
ARSE
is specifically inhibited by warfarin and is most likely involved in warfarin embryopathy. Genomic analysis revealed that ARSF has an intron/exon organization highly similar to those of ARSD and
ARSE
, which is also shared by another Xp22.3
sulfatase
gene, ARSC (
arylsulfatase C
, also known as steroid sulfatase), with the splice sites occurring at the same position in all four genes. The data obtained from sequence analysis and presented in this paper indicate that the ARSC, ARSD,
ARSE
, and ARSF genes are more similar to each other than to other members of the
sulfatase
gene family, supporting our hypothesis that they represent a subfamily of related proteins created through duplication events that occurred in an ancestral pseudoautosomal region.
...
PMID:Identification by shotgun sequencing, genomic organization, and functional analysis of a fourth arylsulfatase gene (ARSF) from the Xp22.3 region. 919 38
During the past few years, molecular analyses have provided important insights into the biochemistry and genetics of the
sulfatase
family of enzymes, identifying the molecular bases of inherited diseases caused by
sulfatase
deficiencies. New members of the
sulfatase
gene family have been identified in man and other species using a genomic approach. These include the gene encoding
arylsulfatase E
, which is involved in X-linked recessive chondrodysplasia punctata, a disorder of cartilage and bone development. Another important breakthrough has been the discovery of the biochemical basis of multiple sulfatase deficiency, an autosomal recessive disorder characterized by a severe of all
sulfatase
activities. These discoveries, together with the resolution of the crystallographic structure of sulfatases, have improved our understanding of the function and evolution of this fascinating family of enzymes.
...
PMID:The sulfatase gene family. 922 15
X-linked chondrodysplasia punctata (CDPX) is a congenital disorder characterized by abnormalities in cartilage and bone development. Mutations leading to amino acid substitutions were identified recently in CDPX patients, in the coding region of the
arylsulfatase E
(
ARSE
) gene, a novel member of the
sulfatase
gene family. Transfection of the
ARSE
full-length cDNA, in Cos7 cells, allowed us to establish that its protein product is a 60-kD precursor, which is subject to N-glycosylation, to give a mature 68-kD form that, unique among sulfatases, is localized to the Golgi apparatus. Five missense mutations found in CDPX patients were introduced into wild-type
ARSE
cDNA by site-directed mutagenesis. These mutants were transfected into Cos7 cells, and the
arylsulfatase
activity and biochemical properties were determined, to study the effect of these substitutions on the
ARSE
protein. One of the mutants behaves as the wild-type protein. All four of the other mutations resulted in a complete lack of
arylsulfatase
activity, although the substitutions do not appear to affect the stability and subcellular localization of the protein. The loss of activity due to these mutations confirms their involvement in the clinical phenotype and points to the importance of these residues in the correct folding of a catalytically active
ARSE
enzyme.
...
PMID:Biochemical characterization of arylsulfatase E and functional analysis of mutations found in patients with X-linked chondrodysplasia punctata. 949 43
The human genome contains six
arylsulfatase
genes (ARSA-ARSF), of which four are clustered in a distal region of the short arm of the X chromosome (Xp22.3). They were probably generated by a series of evolutionary duplication events; their exon-intron boundaries are identical. Nevertheless, different transcript lengths and the absence of cross-hybridizations point to a specific function of each gene in human cell metabolism, and multiple transcripts suggest the coding of protein isoforms. We identified a novel protein isoform of the ARSD gene by isolation of a series of cDNA clones from a human testis cDNA library. The clones were only partially identical to another series of ARSD clones isolated earlier (now designated ARSDalpha clones). Their specific C-terminal region (1160 nt) encodes a novel ARSD peptide of 48 amino acids and was identified as part of intron 6 of the ARSD gene in Xp22.3. We therefore designate them ARSDbeta clones. Expression analyses of ARSDalpha and ARSDbeta by semiquantitative RT-PCR revealed the presence of both in multiple human tissues, although in different quantities. A physiologic substrate for arylsulfatase D proteins is not known. We therefore estimated their
sulfatase
activities in vitro with the aid of the 4-methylumbelliferyl sulfate (4-MUS) assay. Surprisingly, neither ARSD protein isoform demonstrated any
sulfatase
activity alone or in combination, although their catalytic peptide domain is strongly conserved in comparison with that of the other X-chromosomal
arylsulfatase
enzymes (ARSC,
ARSE
, ARSF), all of which are functionally active in the 4-MUS assay.
...
PMID:Arylsulfatase D gene in Xp22.3 encodes two protein isoforms. 1117 74
Here we report an 8-year-old male patient who had mesomelic shortening of forearms and legs, brachytelephalangia and ichthyotic skin lesions. Chromosomal analysis showed an X;Y translocation involving the short arm of the X chromosome (Xp). Fluorescence in situ hybridization (FISH) and molecular studies localized the breakpoints on Xp22.3 in the immediate vicinity of the KAL gene demonstrating deletions of steroid sulfatase (STS),
arylsulfatase E
(
ARSE
), and short stature homeo box (SHOX) genes. It was suspected that the patient was suffering from chondrodysplasia punctata because of a loss of the
arylsulfatase E
(
ARSE
) gene. However, no stippled epiphyses were to be seen in the neonatal radiograph. Interestingly, this patient is the first case with a proven loss of the
ARSE
gene without chondrodysplasia punctata, assuming that chondrodysplasia punctata is not an obligatory sign of
ARSE
gene loss. Brachytelephalangia was the only result of
ARSE
gene deletion in this case. The patient's mother also had dwarfism and showed Madelung deformity of the forearms. She was detected as a carrier of the same aberrant X chromosome. The male patient did not show Madelung deformity, demonstrating that Lerri-Weill syndrome phenotype may be still incomplete in children with SHOX gene deletion. The wide clinical spectrum in the male and the Leri-Weill phenotype in his mother are the results of both a deletion involving several
sulfatase
genes in Xp22.3 and the SHOX gene located in the pseudoautosomal region. Nevertheless, there is no explanation for the absence of chondrodysplasia punctata despite the total loss of the
ARSE
gene. Further studies are necessary to investigate genotype/phenotype correlation in cases with translocations or microdeletions on Xp22.3, including the
ARSE
and the SHOX gene loci.
...
PMID:Brachytelephalangic dwarfism due to the loss of ARSE and SHOX genes resulting from an X;Y translocation. 1126 Feb 13
Despite many efforts, the mouse homolog of
ARSE
, the gene implicated in X-linked recessive chondrodysplasia punctata, has not yet been identified. This absence has so far impaired a deep study of the role of this gene. For this reason, we searched the avian homolog and here report the identification of a chicken
sulfatase
, cARS, that shares high degree of homology with the cluster of sulfatases located on the short arm of the human X chromosome. cARS activity against a sulfated artificial substrate is heat labile and inhibited by warfarin, features that are characteristic of
ARSE
. The expression in pharyngeal arches, somites, and leg buds during chick development is consistent with cARS being the functional ortholog of
ARSE
, matching the tissues affected in this genetic disorder. The identification of the
ARSE
chicken gene is an important step for the study of its natural substrate and its role during development.
...
PMID:Identification and biochemical characterization of an avian sulfatase homologous to the human ARSE, the gene for X-linked chondrodysplasia punctata. 1524 27
X-linked Recessive Chondrodysplasia Punctata (CDPX1) is due to a defect in
arylsulfatase E
(
ARSE
), located on Xp22.3. Neither the substrate nor function of the encoded warfarin-sensitive
arylsulfatase
has been identified and molecular analysis remains the only confirmatory diagnostic test. Nevertheless, the majority of patients evaluated have not had identifiable mutations in
ARSE
, and thus far 23 patients have been reported. The major clinical features in these patients are also present in a group now recognized as phenocopies, due to vitamin K deficiency in early gestation or maternal autoimmune disease. We evaluated the
ARSE
gene in 11 patients who met clinical criteria for CDPX1. We amplified all exons and intronic flanking sequence from each patient, and investigated suspected deletions or rearrangements by southern analysis. We identified mutations in seven individuals. Of the remainder, three had maternal conditions that further expand the phenocopy group. Thus, this group might represent a proportion of the mutation-negative patients in previous studies. We extracted clinical information from all prior reports over the past decade and show that there are few distinguishing features on examination between these two groups of patients. This study supports heterogeneity for CDPX1-like phenotypes and sorting these out will help to define the biological pathway and genetic contributors.
...
PMID:Clinical and molecular analysis of arylsulfatase E in patients with brachytelephalangic chondrodysplasia punctata. 1834 68
At least 19
sulfatase
genes have been reported on the human genome, including four
arylsulfatase
(
ARS
) genes (ARSD;
ARSE
; ARSF; ARSH) and a sterylsulfatase (STS) gene located together on the X-chromosome. Bioinformatic analyses of mammalian genomes were undertaken using known human STS and
ARS
amino acid sequences to study the evolution of these genes and proteins encoded on eutherian and marsupial genomes. Several domain regions and key residues were conserved including signal peptides, active site residues, metal (Ca
2+
) and substrate binding sequences, transmembranes and N-glycosylation sites. Phylogenetic analyses describe the relationships and potential origins of these genes during mammalian evolution. Primate ARSH enzymes lacked signal peptide sequences which may influence their biological functions. CpG117 and CpG92 were detected within the 5' region of the human STS and ARSD genes, respectively, and miR-205 within the 3'-UTR for the human STS gene, using bioinformatic methods A proposal is described for a primordial invertebrate STS-like gene serving as an ancestor for unequal cross over events generating the gene complex on the eutherian mammalian X-chromosome.
...
PMID:Comparative and evolutionary studies of mammalian arylsulfatase and sterylsulfatase genes and proteins encoded on the X-chromosome. 2825 6
