Several key evolutionary events marked the evolution of geminiviruses, culminating with the emergence of divided (bipartite) genomes represented by viruses classified in the genus Begomovirus. This genus represents the most abundant group of multipartite viruses, contributing significantly to the observed abundance of multipartite species in the virosphere. Although aspects related to virus-host interactions and evolutionary dynamics have been extensively studied, the bipartite nature of these viruses has been little explored in evolutionary studies. Here, we performed a parallel evolutionary analysis of the DNA-A and DNA-B segments of New World begomoviruses. A total of 239 full-length DNA-B sequences obtained in this study, combined with 292 DNA-A and 76 DNA-B sequences retrieved from GenBank, were analysed. The results indicate that the DNA-A and DNA-B respond differentially to evolutionary processes, with the DNA-B being more permissive to variation and more prone to recombination than the DNA-A. Although a clear geographic segregation was observed for both segments, differences in the genetic structure between DNA-A and DNA-B were also observed, with cognate segments belonging to distinct genetic clusters. DNA-B coding regions evolve under the same selection pressures than DNA-A coding regions. Together, our results indicate an interplay between reassortment and recombination acting at different levels across distinct subpopulations and segments.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1111/mec.15997 | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
Complete genome sequence of a novel bipartite begomovirus infecting butterfly pea (Clitoria ternatea L.) in India.
Arch Virol
December 2024
Division of Crop Protection, ICAR-Indian Institute of Pulses Research, Kanpur, 208024, India.
In India, plants from the non-cultivated, horticultural, and agricultural categories are commonly infected with various begomoviruses, most of which produce yellow mosaic, bright yellow mosaic, or curling symptoms on leaves. In this study, the complete genome of a new bipartite begomovirus causing yellow mosaic disease (YMD) in butterfly pea (Clitoria ternatea L.) was characterized using rolling-circle amplification followed by restriction digestion, cloning, and sequencing to obtain the full-length DNA-A (2727 nt) and DNA-B (2648 nt) sequences.
View Article and Find Full Text PDFReexamination of the Sida Micrantha Mosaic Virus and Sida Mottle Virus Complexes: Classification Status, Diversity, Cognate DNA-B Components, and Host Spectrum.
Viruses
November 2024
Department of Plant Pathology, University of Brasília (UnB), Brasília 70910-900, DF, Brazil.
Sida mottle virus (SiMoV) and Sida micrantha mosaic virus (SiMMV) are major Brazilian begomoviruses (). However, the range of DNA-A identity of isolates of these viruses (81-100%) is not in agreement with the current criteria for species demarcation (<91%). To clarify this putative classification problem, we performed a comprehensive set of molecular analyses with all 53 publicly available isolates (with complete DNA-A genomes) designated as either SiMoV or SiMMV (including novel isolates obtained herein from nationwide metagenomics-based studies).
View Article and Find Full Text PDFAn Alarming Eastward Front of Cassava Mosaic Disease in Development in West Africa.
Viruses
October 2024
The Central and West African Epidemiology (WAVE) for Food Security Program, Pôle Scientifique et D'innovation, Université Félix Houphouët-Boigny, Bingerville 22 BP 582, Côte d'Ivoire.
Begomoviruses are a major threat to cassava production in Africa. Indeed, during the 1990s, the emergence of a recombinant begomovirus (East African cassava mosaic virus-Uganda, EACMV-Ug) resulted in crop devastation and severe famine in Uganda. In 2023, during a pre-survey of cassava farms at Forécariah, South-West Guinea, 22 samples showing peculiar cassava mosaic disease (CMD) symptoms were collected, and subsequent laboratory analysis confirmed the presence of EACMV-Ug in the samples.
View Article and Find Full Text PDFCharacterization, phylogeny and recombination of Rhynchosia yellow mosaic virus infecting Rhynchosia minima, a wild relative of pigeonpea (Cajanus cajan) from India.
Virus Genes
November 2024
Division of Crop Protection, ICAR-Indian Institute of Pulses Research, Kalyanpur, Kanpur, 208024, India.
Article Synopsis
- Rhynchosia minima plants from the Indian Institute of Pulses Research exhibited yellow mosaic symptoms, suspected to be caused by begomoviruses, primarily identified as mungbean yellow mosaic India virus in four samples tested via PCR.
- One plant sample (Rhm2) tested negative for this virus but later analyses revealed it contained two DNA molecules associated with the rhynchosia yellow mosaic virus (RhYMV), which were closely related to known isolates with significant nucleotide similarities.
- Phylogenetic analysis indicated RhYMV-IN-Knp's lineage and highlighted two recombination events, suggesting a risk of infection to cultivated legumes, emphasizing the need for ongoing monitoring, particularly in pigeonpea
Molecular characterization of begomovirus and DNA satellites associated with mosaic and leaf curl disease of Jamaica cherry ( in India: Uncovering a new host for chilli leaf curl India virus.
Virusdisease
September 2024
Department of Plant Pathology, College of Agriculture, University of Agricultural Sciences, GKVK, Bangalore, Karnataka 560065 India.
Unlabelled: Begomoviruses, member of the family, are responsible for significant economic losses in crops worldwide. Chilli leaf curl India virus (ChiLCINV) is a well-known begomovirus that causes leaf curl disease, primarily affecting plants in the family. In this study, sample from a Jamaica cherry () tree showing typical begomovirus symptoms of mosaic and leaf curling was collected from Nagavara village in the Bengaluru Rural district of Karnataka State, India.
View Article and Find Full Text PDFWant AI Summaries of new PubMed Abstracts delivered to your In-box?
Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!