Your search keyword '"Heteroderidae"' showing total 2 results

1. Poly(T) Variation in Heteroderid Nematode Mitochondrial Genomes is Predominantly an Artefact of Amplification.

Author

Riepsamen, Angelique H., Gibson, Tracey, Rowe, Janet, Chitwood, David J., Subbotin, Sergei A., and Dowton, Mark

Subjects

*HETERODERIDAE, *MITOCHONDRIAL DNA, *MITOCHONDRIA, *GENOMES, *GENE amplification, *GENE expression

Abstract

We assessed the rate of in vitro polymerase errors at polythymidine [poly(T)] tracts in the mitochondrial DNA (mtDNA) of a heteroderid nematode ( Heterodera cajani). The mtDNA of these nematodes contain unusually high numbers of poly(T) tracts, and have previously been suggested to contain biological poly(T) length variation. However, using a cloned molecule, we observed that poly(T) variation was generated in vitro at regions containing more than six consecutive Ts. This artefactual error rate was estimated at 7.3 × 10 indels/poly(T) tract >6 Ts/cycle. This rate was then compared to the rate of poly(T) variation detected after the amplification of a biological sample, in order to estimate the 'biological + artefactual' rate of poly(T) variation. There was no significant difference between the artefactual and the artefactual + biological rates, suggesting that the majority of poly(T) variation in the biological sample was artefactual. We then examined the generation of poly(T) variation in a range of templates with tracts up to 16 Ts long, utilizing a range of Heteroderidae species. We observed that T deletions occurred five times more frequently than insertions, and a trend towards increasing error rates with increasing poly(T) tract length. These findings have significant implications for studies involving genomes with many homopolymer tracts. [ABSTRACT FROM AUTHOR]

Published

2011

2. Poly(T) Variation Within Mitochondrial Protein-Coding Genes in Globodera (Nematoda: Heteroderidae).

Author

Riepsamen, Angelique H., Blok, Vivian C., Phillips, Mark, Gibson, Tracey, and Dowton, Mark

Subjects

*NEMATODES, *GLOBODERA, *HETERODERIDAE, *GENES, *TRANSFER RNA, *GENOMES

Abstract

We sequenced a mitochondrial subgenome from the nematode Globodera rostochiensis, in two overlapping pieces. The subgenome was 9210 bp and contained four protein-coding genes ( ND4, COIII, ND3, Cytb) and two tRNA genes ( tRNA Thr , tRNA Gln ). Genome organization was similar to that of Globodera pallida, which is multipartite. Together with the small number of genes on this subgenome, this suggests that the mitochondrial genome of G. rostochiensis is also multipartite. In the initial clones sequenced, COIII and ND3 were full-length, while ND4 and Cytb were interrupted by premature stop codons and contained point indels that disrupted the reading frame. However, sequencing of multiple clones, from DNA extracted both from multiple individuals and from single cysts, revealed a predominant source of variation—in the length of polythymidine tracts. Comparison of our genomic sequences with ESTs similarly revealed variation in the length of polythymidine tracts. We subsequently sequenced both genomic DNA and mRNA from populations of G. pallida. In each case, variation in the length of polythymidine tracts was observed. The levels of expression of mitochondrial genes in G. pallida were representative of the subgenomes present: little evidence of differential expression was observed. These observations are consistent with the operation of posttranscriptional editing in Globodera mitochondria, although this is difficult to show conclusively in the presence of intraindividual gene sequence variation. Further, alternative explanations cannot be discounted; these include the operation of slippage during translation or that genomic copies of most genes are pseudogenes with a small proportion of full-length sequences able to maintain mitochondrial function. [ABSTRACT FROM AUTHOR]

Published

2008