ORCID Profile
0009-0003-4604-1449
Current Organisations
University of Western Australia
,
Murdoch University
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Publisher: Elsevier BV
Date: 04-2011
DOI: 10.1016/J.IJPARA.2010.11.007
Abstract: Recent research concerning Giardia duodenalis has focused on resolving possible sub-assemblages within Assemblages A and B to better understand host-specific and zoonotic relationships. In the present study nine cloned, cultured, Assemblage B isolates were used to investigate the intra-Assemblage B substitution patterns of conserved (ssrDNA, ef, h2b, h4) and variable (tpi, gdh, bg) genes to assess their suitability for further application to sub-assemblage analyses. The resolution of each gene was found to be proportional to its substitution rate and for the genetically narrow s le set examined, the variable genes best represented the consensus phylogeny while the conserved genes only established fractions. However it was demonstrated that the spectra of conserved and variable genes were required to ensure accuracy of inferred phylogeny and it was therefore concluded that further research into sub-Assemblage B groups would require a mixture of conserved and variable genes for the multi-locus analyses of this genetically broad assemblage.
Publisher: Elsevier BV
Date: 07-2023
Publisher: Cambridge University Press (CUP)
Date: 19-06-2007
DOI: 10.1017/S0031182007003071
Abstract: A review of the Giardia duodenalis sequences currently available on the GenBank database was completed to compare the different genotyping loci (small subunit ribosomal DNA, glutamate dehydrogenase, triose-phosphate isomerase and beta giardin) for their ability to discern assemblage and subassemblage groups and infer phylogenetic relationships. In total, 405 Giardia duodenalis sequences were sorted and aligned to examine the substitutions within and between the assemblages – A and B (zoonotic), C and D (dogs), E (livestock), F (cats) and G (rodents). It was found that all of the genes could reproducibly group isolates into their assemblages and that the AI/AII subassemblage groups were robust and identifiable at all loci. However, the assemblage B subgroups were not reproducible at half of the loci (small subunit ribosomal DNA and beta giardin), not due to their conserved nature, but because there was insufficient sequence data of reference isolates available for comparison. It is anticipated that further investigation of these loci may reveal the core subgroups of this medically important and zoonotic assemblage and also those of others. The closer, more recent, phylogenetic relationships amongst the assemblages appear to be resolved however, more sequence data from the current loci, and possibly new loci, will be required to establish the remaining relationships.
Publisher: Elsevier BV
Date: 05-2015
DOI: 10.1016/J.MOLBIOPARA.2015.05.002
Abstract: Giardia duodenalis assemblage B is potentially a zoonotic parasite. The characterisation and investigation of isolates has been h ered by greater genetic ersity of assemblage B, limiting the application and utility of current genotyping loci. Since whole genome sequencing is the optimal high-throughput method for gene identification, the present study sequenced assemblage B isolate BAH15c1 and compared the sequence to the draft GS references to identify polymorphic genes for potential use in genotyping assays. The majority of the genome sequence was conserved between the two isolates, producing 508 contigs of 10.4 Mb with 4968 genes. Seventy polymorphic genes for potential use in genotyping assays were identified ranging in variation from elongation factor 1 α, which was the most conserved, through to triose phosphate isomerase, which was the most variable.
No related grants have been discovered for Caroline Wielinga.