A.L. Jimenez Vaca scite author profile

X-linked ichthyosis is an inherited disorder due to steroid sulfatase deficiency. It is clinically characterized by dark, adhesive, and regular scales of the skin. Most X-linked ichthyosis patients present large deletions of the STS gene and flanking markers; a minority show a point mutation or partial deletion of the STS gene. In this study we analyzed the STS gene in a family with simultaneous occurrence of X-linked ichthyosis and ichthyosis vulgaris. X-linked ichthyosis diagnosis was confirmed through steroid sulfatase assay in leukocytes using 7-[3H]-dehydroepiandrosterone sulfate as a substrate. Exons 1, 2, 5, and 6-10, and the 5' flanking markers DXS1130, DXS1139, and DXS996 of the STS gene were analyzed by polymerase chain reaction. X-linked ichthyosis patients of the family (n = 4 males) had undetectable levels of STS activity (0.00 pmol per mg protein per h). The DNA analysis showed that only exons 6-10 and the 5' flanking markers of the STS gene were present. We report the first partial deletion of the STS gene spanning exons 1-5 in X-linked ichthyosis patients.

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Characterization of a Novel Point Mutation (Arg432His) in X-Linked Ichthyosis

Valdes-Flores¹,

Vaca²,

Kofman-Alfaro³

et al. 2001

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A Novel Partial Deletion of Exons 2–10 of the STS Gene in Recessive X-Linked Ichthyosis

Valdés-Flores

Kofman‐Alfaro

Vaca

et al. 2000

Journal of Investigative Dermatology

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X-linked ichthyosis is an inherited disease due to steroid sulfatase deficiency. Onset is at birth or early after birth with dark, regular, and adherent scales of skin. Approximately 85%-90% of X-linked ichthyosis patients have large deletions of the STS gene and flanking sequences. Three patients have been identified with partial deletions of the gene. Two deletions have been found at the 3' extreme and the other one implicating exons 2-5. This study describes a novel partial deletion of the STS gene in an X-linked ichthyosis patient. The subject was classified through steroid sulfatase assay in leukocytes using 7-[3H]-dehydroepiandrosterone sulfate as a substrate. Exons 1, 2, 5, and 7-10, and 3' flanking sequences DXS1131, DXS1133, DXS237, DXS1132, DXF22S1, and DXS278 of the STS gene were analyzed through polymerase chain reaction. The DNA analysis showed that exon 1 and 3' flanking sequences from DXS237 to DXS278 were present. In this study we report the fourth partial deletion of the STS gene and the first spanning exons 2-10 in X-linked ichthyosis patients.

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Maternal Transmission of the 3 bp Deletion within Exon 7 of the STS Gene in Steroid Sulfatase Deficiency

Valdés-Flores¹,

Vaca

Rivera-Vega

et al. 2001

Journal of Investigative Dermatology

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A.L. Jimenez Vaca

Deletion Pattern of the STS Gene in X-linked Ichthyosis in a Mexican Population

Deletion of Exons 1–5 of the STS Gene Causing X-Linked Ichthyosis

Characterization of a Novel Point Mutation (Arg432His) in X-Linked Ichthyosis

A Novel Partial Deletion of Exons 2–10 of the STS Gene in Recessive X-Linked Ichthyosis

Maternal Transmission of the 3 bp Deletion within Exon 7 of the STS Gene in Steroid Sulfatase Deficiency

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