Molecular identification and phylogenetic characterization of A-strain isolates of maize streak virus from western Ethiopia

Abstract

The A-strain of maize streak virus (MSV) causes maize streak disease (MSD), which is a major biotic threat to maize production in sub-Saharan Africa. Previous studies have described different MSV strains of economic importance from southern and eastern African countries and how eastern African regions are hubs for MSV diversification. Despite these efforts, due to a lack of extensive sampling, there is limited knowledge about the MSV-A diversity in Ethiopia. Here, field sampling of maize plants and wild grasses with visible MSD symptoms was carried out in the western Ethiopian regions of Gambela, Oromia, and Benishangul-Gumuz during the maize-growing season of 2019. The complete genomes of MSV isolates (n = 60) were cloned and sequenced by the Sanger method. We used a model-based phylogenetic approach to analyse 725 full MSV genome sequences available in the GenBank database together with newly determined genome sequences from Ethiopia to determine their subtypes and identify recombinant lineages. Of the 127 fields accessed, MSD prevalence was highest, at 96%, in the Gambela region and lowest in Oromia, at 66%. The highest mean symptom severity of 4/5 (where 5 is the highest and 1 the lowest) was observed in Gambela and Benishangul-Gumuz. Our results show that these newly determined MSV isolates belong to recombinant lineage V of the A₁ subtype, with the widest dissemination and greatest economic significance in sub-Saharan Africa and the adjacent Indian Ocean islands.