Abstract
Evolutionary biology has become one of the imperative determinants explaining the origin of several viruses which were either identified decades back or are recognized lately using metagenomic approaches. Several notifiable emerging viruses like influenza, Severe Acute Respiratory Syndrome (SARS), Middle East Respiratory Syndrome (MERS), Ebola, Hendra, Nipah and Zika viruses have become the leading causes of epidemics and losses thereto in both human and animals. The sufferings are higher due to gastroenteritis causing viruses including Astrovirus, Calicivirus, Enterovirus, Kobuvirus Picobirnavirus, Sapelovirus, Teschovirus, and many more. Notably, the majority of the emerging viruses enclose RNA genome and these are more prone for insertions/mutation in their genome, leading to evolving viral variants. Rapidity in viral evolution becomes a big hitch in the development process of successful vaccines or antiviral. The prominent gastroenteric virus is rotavirus, which is a double-stranded RNA virus with a segmented nature of genome enabling higher reassortment events and generates unusual strains with unique genomic constellations derivative of parental rotavirus strains. Although most rotaviruses appear to be host restricted, the interspecies transmission of rotaviruses has been well documented across the globe. The nocturnal bats have been accepted harbouring many pathogenic viruses and serving as natural reservoirs. Indications are that bats can also harbour rotaviruses, and help in virus spread. The zooanthroponotic and anthropozoonotic potential of rotaviruses has significant implications for rotavirus epidemiology. Hitherto reports confirm infection of humans through rotaviruses of animal origin, exclusively via direct transmission or through gene reassortments between animal and human strain of rotaviruses. There is a need to understand the ecology and evolutionary biology of emerging rotavirus strains to design effective control programs.
Highlights
The present world is witnessing the emergence of new microbes where the evolution rate is much higher in viruses, making them a target of substantial interest among virologists and public health specialists
The evolution in Rotavirus (RV) is addresses which has been recognized for leading gastroenteritis globally
Based on the serological reactivity and genetic variability of group-specific antigen VP6, RVs are differentiated into 8 groups/ species/ types, designated as rotavirus A (RVA)-RVH (Rotavirus A, Rotavirus B...H, etc.) and lately, RVs identified in sheltered dogs and bats in Hungary and Serbia are proposed as new species (RVI and RVJ), confirmation by the International Committee on Taxonomy of Viruses (ICTV) is pending [9, 10]
Summary
The present world is witnessing the emergence of new microbes where the evolution rate is much higher in viruses, making them a target of substantial interest among virologists and public health specialists. Applications of modern biotechniques in deciphering the genomic data at a higher pace have added voluminous information on virus biology, there is quiet perceptive paucity on knowing the connotation of virus evolutions. Ample data is available in support of the emergence of new viruses or virus strains which have established in uncommon host species or exhibiting species jumping, making their survival in the bionetwork conceivable. Several viral infections in humans have been tracked to have animal-origin and reverse-zoonosis is not unusual [1, 2].
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