KEY MESSAGE : A combination of in vitro culture and mutagenesis using ethyl methanesulfonate (EMS) followed by culture filtrate-mediated selection produced variant sugarcane plants tolerant and resistant to Fusarium sacchari. Eldana saccharina is a destructive pest of the sugarcane crop in South Africa. Fusarium sacchari PNG40 (a fungal strain harmful to E. saccharina) has the potential to be an endophytic biological control agent of the stalk borer. However, the fungus causes Fusarium stalk rot in sugarcane. In the current study, sugarcane plants tolerant and resistant to F. sacchari PNG40 were produced by exposing embryogenic calli to the chemical mutagen ethyl methanesulfonate (EMS), followed by in vitro selection during somatic embryogenesis and plantlet regeneration on media containing F. sacchari culture filtrates (CF). The incorporation of 100 ppm CF in the culture media at the embryo maturation stage, at germination, or at both, resulted in callus necrosis and consequent reduced plantlet yield. Subsequent trimming of the roots of regenerated plants and their exposure to 1,500 ppm CF served as a further selection treatment. Plants produced from EMS-treated calli displayed improved root re-growth in the presence of CF pressure compared with those from non-treated calli. The tolerance of CF-selected plants was confirmed in greenhouse tests by inoculation with F. sacchari PNG40, re-isolation of Fusarium spp. from undamaged tissue of asymptomatic plants and establishment of the identity of fungal isolates as PNG40 using molecular analysis. The restriction of PNG40 presence to the inoculation lesion in some plants suggested their resistance to the fungus. Genotypes exhibiting symptomless endophytic colonization by PNG40 were identified and will be utilised for testing biological control strategies against E. saccharina.
Wild plant species play an important role in plant virus epidemiology, mainly by harbouring viruses pathogenic to cultivated plant species. The genus Solanum includes important crop species as well as some highly abundant and widely distributed wild plant species. The aim of the present study was to profile the viromes of 11 wild Solanum spp. found in five provinces of South Africa. Metatranscriptomic analysis of pooled RNA samples from each of the Solanum spp. detected viruses belonging to 13–19 families. Reverse transcription PCR confirmed the detection of potato virus Y (PVY), potato leaf roll virus (PLRV), tomato torrado virus (ToTV) and tomato chlorosis virus (ToCV) for the first time in some of the Solanum spp. studied. Phylogenetic analyses indicated that the PVY and PLRV strains from the wild Solanum spp. were divergent from those reported in cultivated crops, while there was limited divergence among ToTV and ToCV isolates. Viruses detected for the first time in South Africa included tobacco mild green mosaic virus, tomato matilda virus, a pepper enamovirus from Rwanda and a cytorhabdovirus from potato in Kenya. Potentially novel viruses were also detected in S. lichtensteinii, S. mauritianum and S. viarum. This study demonstrates the role of Solanum spp. in harbouring viruses pathogenic to solanaceous crops, and in the emergence of new virus strains. It may therefore inform strategies for virus disease management by control of wild solanums that harbour viruses pathogenic to important Solanum crops.
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