Claudia Walter scite author profile

Zellweger syndrome (ZS), neonatal adrenoleukodystrophy (NALD), and infantile Refsum disease (IRD) are clinically overlapping syndromes, collectively called "peroxisome biogenesis disorders" (PBDs), with clinical features being most severe in ZS and least pronounced in IRD. Inheritance of these disorders is autosomal recessive. The peroxisome biogenesis disorders are genetically heterogeneous, having at least 12 different complementation groups (CGs). The gene affected in CG1 is PEX1. Approximately 65% of the patients with PBD harbor mutations in PEX1. In the present study, we used SSCP analysis to evaluate a series of patients belonging to CG1 for mutations in PEX1 and studied phenotype-genotype correlations. A complete lack of PEX1 protein was found to be associated with severe ZS; however, residual amounts of PEX1 protein were found in patients with the milder phenotypes, NALD and IRD. The majority of these latter patients carried at least one copy of the common G843D allele. When patient fibroblasts harboring this allele were grown at 30 degrees C, a two- to threefold increase in PEX1 protein levels was observed, associated with a recovery of peroxisomal function. This suggests that the G843D missense mutation results in a misfolded protein, which is more stable at lower temperatures. We conclude that the search for the factors and/or mechanisms that determine the stability of mutant PEX1 protein by high-throughput procedures will be a first step in the development of therapeutic strategies for patients with mild PBDs.

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A chimeric nucleotide‐binding protein, encoded by a hisP–malK hybrid gene, is functional in maltose transport in Salmonella typhimurium

Schneider

Walter

1991

Molecular Microbiology

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We have isolated a hybrid gene, composed of the first 455 nucleotides of hisP and nucleotides 275-1107 of malK, the genes coding for the nucleotide-binding components of the high-affinity transport systems for histidine and maltose in Salmonella typhimurium, respectively. The fusion had occurred by recombination within 11 homologous base pairs located between the two DNA fragments. In the chimeric protein peptidic motifs A and B, proposed to be part of the nucleotide-binding fold, originate from HisP and MalK, respectively. Plasmid pES42-39, harbouring the hybrid gene, was shown to complement only a malK mutation but failed to complement a hisP deletion mutation. The chimeric protein was identified by immunoblotting as a protein with an apparent molecular mass of 49kDa. Removal of the C-terminal 77 amino acid residues from the chimeric protein resulted in the loss of function in transport. In contrast, 51 amino acid residues could be removed from the C-terminus of wild-type MalK without any effect. Upon overproduction the chimeric protein, as wild-type MalK, inhibited expression of the malB regulon. However, both truncated proteins, when overproduced, did not exhibit this activity. Based on these results, a tentative model of the functional domains of MalK is presented.

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Characterization of side‐directed mutations in conserved domains of MalK, a bacterial member of the ATP‐binding cassette (ABC) family

1992

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Site‐directed mutagenesis was used to change four amino acid residues (Q82, P152, L179, H192) in the MalK subunit of S. typhimurium maltose transport system which are highly conserved among members of the ATP‐binding cassette (ABC) family. Replacement of H192 caused complete failure to complement the transport defect of a malK strain whereas changes of the other residues resulted in reduced or wild‐type activity. The purified mutant proteins exhibited ATPase activity comparable to wild‐type MalK.

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Maximum Diving Depths of Cape Gannets

Adams

Walter

1993

The Condor

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Diet of Swift Tern Chicks in the Saldanha Bay Region, South Africa

Walter

Cooper

Suter

1987

Ostrich

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The diet of the Swift Tern Sterna bergii was investigated over a ten-year period off the west coast of South Africa by collecting re ur itations from chicks dunng ringing operations. A total of 1 31 1 prey items of 25 identifiable species (d ofwhich were fish) was collected. Fish formed 86 % of all the prey items. Other prey species included cephalopods, crustaceans and insects. 60% by number of prey taken consisted of pelagic shoaling fish, of which Cape Anchovy Engraulis japonicus occurred most frequently and was the most abundant prey species in seven of the nine years in which samples were collected. Weekly collections in 1984 confirmed that pelagic shoaling fish, in particular Cape Anchovy, were the most abundant rey mass.taken during the chick-rearing period. Prey size varied from 7 to 138 mm in length and from 0,l to 30, B gin

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Claudia Walter

Disorders of Peroxisome Biogenesis Due to Mutations in PEX1: Phenotypes and PEX1 Protein Levels

A chimeric nucleotide‐binding protein, encoded by a hisP–malK hybrid gene, is functional in maltose transport in Salmonella typhimurium

Characterization of side‐directed mutations in conserved domains of MalK, a bacterial member of the ATP‐binding cassette (ABC) family

Maximum Diving Depths of Cape Gannets

Diet of Swift Tern Chicks in the Saldanha Bay Region, South Africa

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