Nelson Pv scite author profile

Peroxisome biogenesis disorders are a heterogeneous group of human neurodegenerative diseases caused by peroxisomal metabolic dysfunction. At the molecular level, these disorders arise from mutations in PEX genes that encode proteins required for the import of proteins into the peroxisomal lumen. The Zellweger syndrome spectrum of diseases is a major sub-set of these disorders and represents a clinical continuum from Zellweger syndrome (the most severe) through neonatal adrenoleukodystrophy to infantile Refsum disease. The PEX1 gene, which encodes a cytoplasmic AAA ATPase, is the responsible gene in more than half of the Zellweger syndrome spectrum patients, and mutations in PEX1 can account for the full spectrum of phenotypes seen in these patients. In these studies, we have undertaken mutation analysis of PEX1 in skin fibroblast cell lines from Australasian Zellweger syndrome spectrum patients. A previously reported common PEX1 mutation that gives rise to a G843D substitution and correlates with the less severe disease phenotypes has been found to be present at high frequency in our patient cohort. We also report a novel PEX1 mutation that occurs at high frequency in Zellweger syndrome spectrum patients. This mutation produces a frameshift in exon 13, a change that leads to the premature truncation of the PEX1 protein. A Zellweger syndrome patient who was homozygous for this mutation and who survived for less than two months from birth had undetectable levels of PEX1 mRNA. This new common mutation therefore correlates with a severe disease phenotype. We have adopted procedures for the detection of this mutation for successful prenatal diagnosis.

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Multiple polymorphisms within the α-L-iduronidase gene (IDUA): implications for a role in modification of MPS-I disease phenotype

Scott

Litjens

et al. 1993

Hum Mol Genet

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Population frequency of the arylsulphatase A pseudo-deficiency allele

Carey

Morris

1991

Hum Genet

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The enzymatic diagnosis of metachromatic leukodystrophy is complicated by the frequent occurrence of the pseudo-deficiency of arylsulphatase A (ASA) enzyme activity. An A to G nucleotide transition in the first polyadenylation signal of the ASA gene results in the loss of its major mRNA species and a greatly reduced level of enzyme activity. This nucleotide change (nucleotide 1620 of the ASA cDNA) is the cause of ASA pseudo-deficiency and is closely linked to another A to G transition (nucleotide 1049), within the ASA gene, which changes Asn350 to serine but which does not affect ASA activity. The distribution of these 2 nucleotide changes has been investigated in 73 unrelated individuals from the Australian population. The two transitions were found together on 14 (9.6%) out of 146 chromosomes. The transition at nucleotide 1620 was not found alone; however, the other transition was found alone on 7 (4.8%) out of the 146 chromosomes. The carrier frequency of the ASA pseudo-deficiency mutation in Australia is thus estimated to be about 20%.

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CO₂-Enhanced Yield and Foliar Deformation among Tomato Genotypes in Elevated CO₂ Environments

Ke¹,

Peet²,

Dm³

et al. 1991

Plant Physiol.

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Nelson Pv

Neonatal screening for cystic fibrosis using immunoreactive trypsinogen and direct gene analysis: four years' experience

A common PEX1 frameshift mutation in patients with disorders of peroxisome biogenesis correlates with the severe Zellweger syndrome phenotype

Multiple polymorphisms within the α-L-iduronidase gene (IDUA): implications for a role in modification of MPS-I disease phenotype

Population frequency of the arylsulphatase A pseudo-deficiency allele

CO₂-Enhanced Yield and Foliar Deformation among Tomato Genotypes in Elevated CO₂ Environments

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Nelson Pv

Neonatal screening for cystic fibrosis using immunoreactive trypsinogen and direct gene analysis: four years' experience

A common PEX1 frameshift mutation in patients with disorders of peroxisome biogenesis correlates with the severe Zellweger syndrome phenotype

Multiple polymorphisms within the α-L-iduronidase gene (IDUA): implications for a role in modification of MPS-I disease phenotype

Population frequency of the arylsulphatase A pseudo-deficiency allele

CO2-Enhanced Yield and Foliar Deformation among Tomato Genotypes in Elevated CO2 Environments

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Product

Resources

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CO₂-Enhanced Yield and Foliar Deformation among Tomato Genotypes in Elevated CO₂ Environments