Molecular analysis of six segments of tobacco leaf enation virus, a novel phytoreovirus from tobacco.

Tobacco leaf enation virus (TLEV) is a putative member of the genus Phytoreovirus within the family Reoviridae. Previous western blot analysis of structural viral proteins (apparent molecular weights of 93 kDa; 58 kDa; 48 kDa; 39 kDa and 36 kDa) associated with TLEV, isolated from infected tobacco in South Africa, suggested that these proteins may correspond to structural Wound tumor virus (WTV) proteins. To further establish the nature of this novel virus disease phenotype in tobacco, molecular characterization of six dsRNA components was undertaken. Full-length cDNA clones were obtained by an optimized modified single-primer amplification sequence-independent dsRNA cloning method. Results of this study revealed the conserved terminal sequence: 5'GG(U/C)...UGAU 3' of segments S6-S12, while adjacent to these conserved terminal sequences are imperfect inverted repeats (7-15 bp in length), both features being common to reoviruses. The complete nucleotide sequences of segments S5 (2,610 bp), S7 (1,740 bp), S8 (1,439 bp), S10 (1,252 bp), S11 (1,187 bp) and S12 (836 bp) were determined. Comparison of full-length nucleotide sequences with corresponding segments of other phytoreoviruses, Rice gall dwarf virus (RGDV), Rice dwarf virus (RDV) and WTV has shown nucleotide and predicted amino acid identities within the range of 30-60%. TLEV consistently shows a higher identity to WTV than to other phytoreovirus species where sequence data is available. Each segment had a single predicted open reading frame encoding proteins with calculated molecular weights of S5 (90.6 kDa); S7 (58.1 kDa); S8 (47.7 kDa); S10 (39.8 kDa); S11 (35 kDa) and S12 (19.5 kDa). The relatively low nucleotide and amino acid identity to other members of the genus demonstrates that TLEV is a novel phytoreovirus, distinct from the only other reported dicotyledenous-infecting WTV and is the first phytoreovirus reported to emerge in Africa.