An interstitial deletion-insertion involving chromosomes 2p25.3 and Xq27.1, near SOX3, causes X-linked recessive hypoparathyroidism.

X-linked recessive hypoparathyroidism, due to parathyroid agenesis, has been mapped to a 906-kb region on Xq27 that contains 3 genes (ATP11C, U7snRNA, and SOX3), and analyses have not revealed mutations. We therefore characterized this region by combined analysis of single nucleotide polymorphisms and sequence-tagged sites. This identified a 23- to 25-kb deletion, which did not contain genes.

Characterization and expression analysis of the Spink5 gene, the mouse ortholog of the defective gene in Netherton syndrome.

The human SPINK5 gene, encoding the putative 15-domain serine protease inhibitor LEKTI, was identified as the defective gene in the severe autosomal recessive ichthyosiform skin disorder known as Netherton syndrome and as a candidate susceptibility gene for atopic disease. Here we report mapping of the murine Spink5 gene to chromosome 18 and its characterization. We show that, unlike in humans, transcription of the mouse Spink5 gene generates two mRNAs that differ in the 3' untranslated region.

Maturity-onset diabetes of the young caused by a balanced translocation where the 20q12 break point results in disruption upstream of the coding region of hepatocyte nuclear factor-4alpha (HNF4A) gene.

Monogenic human disorders have been used as paradigms for complex genetic disease and as tools for establishing important insights into mechanisms of gene regulation and transcriptional control. Maturity-onset diabetes of the young (MODY) is a monogenic dominantly inherited form of diabetes that is characterized by defective insulin secretion from the pancreatic beta-cells. A wide variety of mutation types in five different genes have been identified that result in this condition.

Positive association to IgE levels and a physical map of the 13q14 atopy locus.

Linkage of atopy and associated traits to a locus on chromosome 13q14 has been identified by several studies in diverse populations. We have previously shown the putative atopy gene to be contained within an interval of approximately 5 Mb flanked by D13S328 and D13S1269 and centred on D13S273. We have now extended this work using a top-down approach to physical mapping.

Efficiency of de novo centromere formation in human artificial chromosomes.

In a comparative study, we show that human artificial chromosome (HAC) vectors based on alpha-satellite (alphoid) DNA from chromosome 17 but not the Y chromosome regularly form HACs in HT1080 human cells. We constructed four structurally similar HAC vectors, two with chromosome 17 or Y alphoid DNA (17alpha, Yalpha) and two with 17alpha or Yalpha and the hypoxanthine guanine phosphoribosyltransferase locus (HPRT1). The 17alpha HAC vectors generated artificial minichromosomes in 32-79% of the HT1080 clones screened, compared with only approximately 4% for the Yalpha HAC vectors, indicating that Yalpha is inefficient at forming a de novo centromere.