Roger Mountford scite author profile

X-linked hypophosphatemic rickets (HYP) is a dominant disorder characterised by impaired phosphate uptake in the kidney, which is likely to be caused by abnormal regulation of sodium phosphate cotransport in the proximal tubules. By positional cloning, we have isolated a candidate gene from the HYP region in Xp22.1. This gene exhibits homology to a family of endopeptidase genes, members of which are involved in the degradation or activation of a variety of peptide hormones. This gene (which we have called PEX) is composed of multiple exons which span at least five cosmids. Intragenic non-overlapping deletions from four different families and three mutations (two splice sites and one frameshift) have been detected in HYP patients, which suggest that the PEX gene is involved in the HYP disorder.

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The complete nucleotide sequence of a common cold virus: human rhinovlrus 14

Stanway¹,

Hughes²,

Mountford³

et al. 1984

Nucl Acids Res

249

166

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The complete nucleotide sequence of the single-stranded RNA genome of human rhinovirus 14, one of the causative agents of the common cold, has been determined from cDNA cloned in E. coli. The genome is typical of the picornaviridae family, comprising a 5' non-coding region of 624 nucleotides, a long open reading frame of 6537 nucleotides (90.8% of the genome) and a 3' non-coding region of 47 nucleotides. Comparison of the nucleotide sequence and the predicted amino acid sequence with those of the polioviruses reveals a surprising degree of homology which may allow recognition of regions of antigenic importance and prediction of the virus polyprotein cleavage sites. The results presented here imply a closer genetic relationship between the rhinovirus and enterovirus genera than previously suspected.

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Common organization of gene clusters for production of different capsular polysaccharides (K antigens) in Escherichia coli

et al. 1988

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Southern blot analysis of cloned K5-and K7-antigen genes, using DNA fragments from cloned Kl genes as radiolabeled probes, demonstrated that each K-antigen gene cluster is organized in a manner similar to that shown for the Ki antigen. That is, a central DNA segment unique for a given antigen type is flanked by DNA sequences that encode common functions for the management of intracellular polymer. This has been confirmed by transposon and deletion mutagenesis of plasmids carrying the KS and K7 genes. We also describe a series of complementation experiments in which transport or postpolyIlerizational modification functions for one K antigen are used to complement mutations in the corresponding regions of a different K-antigen gene cluster. Thus, postpolymerizational modification of polysaccharide and transport of mature polysaccharide from the periplasmic space are comon mechanisms and are independent of polysaccharide structure.

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Roger Mountford

Clinical and genetic characteristics of hereditary pancreatitis in Europe

Nail patella syndrome: a review of the phenotype aided by developmental biology

A gene (PEX) with homologies to endopeptidases is mutated in patients with X–linked hypophosphatemic rickets

The complete nucleotide sequence of a common cold virus: human rhinovlrus 14

Common organization of gene clusters for production of different capsular polysaccharides (K antigens) in Escherichia coli

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