Journal of King Saud University: Science (Dec 2023)
Molecular characterization and evolutionary history analysis of a novel Kudzu mosaic virus (KMV) infecting the Kudzu (Pueraria montana)
Abstract
Objectives: Plant viruses are a significant contributor to the economic losses experienced in numerous plant species. Begomoviruses exhibit a wide range of host species, encompassing both cultivated and non-cultivated plants. The kudzu plant, scientifically known as Pueraria montana, is indigenous to the Southeast Asian region. Moreover, it exhibits varied attributes with regards to its utilization in the fields of medicine, food, cosmetics, and the herbal industry. Methods: During a routine survey, some P. montana plants having typical symptoms of yellowing, mosaic, and mottle were observed in areas including Fort-Minro (FM) and Anari of district Dera Ghazi Khan and Maari (MA) of district Rajanpur. The genomic DNA was extracted from the collected samples. The polymerase chain reaction (PCR) and rolling circular amplification (RCA) was carried out to isolate the DNA and DNA- β from the collected plant specimens. An evolutionary research was conducted to assess the lineage of this virus inside a novel geographical region. Results: A 500-bp amplicon size was obtained from the samples of the FM and MA, while the approximately 2.7-kb amplicon size of its full genome was obtained from the samples of both locations. The results of the sequence analysis demonstrated conclusively that the plants in question are infected with Kudzu mosaic virus (KMV). The evolutionary history analysis has confirmed the virus's lineage in a new region, and the nucleotide frequencies of obtained sequences were variable. Conclusion: The presence of a novel bipartite begomovirus in the tropical region has been substantiated using a phylogenetic and evolutionary investigation. The observation of a white fly population on infected plants has also suggested that the transmission of this virus through the migration of this insect vector can be a viable mechanism.