Your search keyword '"Babuvirus genetics"' showing total 2 results

1. Asymmetric patterns of reassortment and concerted evolution in Cardamom bushy dwarf virus.

Author

Savory FR and Ramakrishnan U

Subjects

Babuvirus isolation & purification, Base Sequence, DNA, Viral genetics, Evolution, Molecular, Haplotypes genetics, Homologous Recombination, Molecular Sequence Data, Phylogeny, Plant Diseases virology, Sequence Alignment, Sequence Analysis, DNA, Babuvirus genetics, Elettaria virology, Genetic Variation, Genome, Viral genetics, Reassortant Viruses genetics

Abstract

Nanoviruses are single-stranded DNA (ssDNA) plant viruses which have multipartite genomes consisting of discrete, individually encapsidated components. This multipartite strategy may lead to high rates of reassortment, whereby entire genome components are exchanged among different strains. However, few studies have explored the extent to which reassortment shapes the genetic diversity of nanovirus populations. Here we present an extensive analysis of reassortment among 163 Cardamom bushy dwarf virus (CBDV; Nanoviridae family, Babuvirus genus) isolates collected in Northeast India. We also examined evidence of recombination, which is known to play a role in the evolutionary dynamics of nanovirus populations. By sequencing six discrete genome components for each isolate, we demonstrate that over 40% of the isolates display evidence of at least one reassortment event during their evolutionary histories. Nevertheless, a bias in the frequencies at which different genome components reassort was observed, with the DNA-M and DNA-N components being the most predisposed to reassortment. This may reflect variation in the ability of different genome components to function efficiently in a foreign genomic background. Comparisons of the common regions of different genome components revealed signatures of concerted evolution mediated by frequent inter-component homologous recombination. This process, which has previously been reported in nanoviruses and other multipartite ssDNA viruses, may allow proteins which initiate replication to maintain control over distinct genome components. Notably, DNA-N, one of the genome components most prone to reassortment, also exhibited the most frequent inter-component homologous recombination. This supports the idea that inter-component homologous recombination may promote the efficient replication of novel components which are introduced into a genome via reassortment., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

2. Evidence of recombination in the Banana bunchy top virus genome.

Author

Hyder MZ, Shah SH, Hameed S, and Naqvi SM

Subjects

Evolution, Molecular, Genetic Variation, Inverted Repeat Sequences genetics, Phylogeny, Plants virology, Sequence Analysis, DNA, Babuvirus genetics, Genome, Viral, Recombination, Genetic

Abstract

Viruses serve as good model for evolutionary studies, owing to their short generation times and small genomes. Banana bunchy top virus (BBTV) is a significant subject being multicomponent circular single stranded DNA virus. BBTV belongs to family Nanoviridae and contains DNA-R, -U3, -S, -M, -C, and -N as integral genomic components. Evolutionary studies have shown genetic re-assortment of components among its isolates and revealed a concerted type evolution in non-coding regions of its genome. The DNA U3 having been shown as the most diverse component in our previous studies, was subjected to sequencing from some Pakistani isolates for the first time. Sequence analysis revealed intergenomic recombination in DNA-U3 among the isolates of two sub-groups and a very rare intragenomic recombination in Pakistani BBTV population. This indicates that like other evolutionary processes including intergenomic recombination, intragenomic recombination among the genomic components of the same isolate may also have a significant contribution in the evolution of BBTV genome. Intragenomic recombination therefore appears to be a unique way to generate genetic diversity in the multicomponent ssDNA viruses., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011