Browsing by Author "Kateera Tushemereirwe, Wilberforce"

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    First Evidence of Feeding-Induced RNAi in Banana Weevil via Exogenous Application of dsRNA
    (Insects, 2022) Shaykins Mwaka, Henry; Christiaens, Olivier; Namanya Bwesigye, Priver; Kubiriba, Jerome; Kateera Tushemereirwe, Wilberforce; Gheysen, Godelieve; Smagghe, Guy
    Banana weevil (Cosmopolites sordidus) is the most devastating pest of banana and plantain worldwide, yet current control measures are neither effective, sustainable, nor environmentally sound, and no resistant farmer-preferred cultivars are known to date. In this paper, we examined the ability to induce RNA interference (RNAi) in the banana weevil via feeding. We first developed an agar- and banana corm (rhizome) flour-based artificial diet in a multi-well plate setup that allowed the banana weevils to complete their life cycle from egg through the larval instars to the pupal stage in an average period of 53 days. Adults emerged about 20 days later. The artificial diet allowed the tunneling and burrowing habits of the larvae and successful metamorphosis up to adult eclosion. Adding dsRNA for laccase2 to the artificial diet resulted in albino phenotypes, confirming gene-silencing. Finally, C. sordidus was fed with dsRNA against a selection of essential target genes: snf7, rps13, mad1, vha-a, vha-d, and lgl for a period of 45 days. 100% mortality within 9–16 days was realized with dssnf7, dsrps13, and dsmad1 at 200 ng/mL artificial diet, and this corresponded to a strong reduction in gene expression. Feeding the dsRNA targeting the two vha genes resulted in 100% mortality after about 3–4 weeks, while treatment with dslgl resulted in no mortality above the dsgfp-control and the water-control. Our results have implications for the development of RNAi approaches for managing important crop pests, in that banana weevils can be controlled based on the silencing of essential target genes as snf7, rps13, and mad1. They also highlight the need for research into the development of RNAi for banana protection, eventually the engineering of host-induced gene-silencing (HIGS) cultivars, given the high RNAi efficacy and its species-specific mode of action, adding the RNAi approach to the armory of integrated pest management (IPM).
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    Improved PCR for identification of members of the genus Xanthomonas
    (European Journal of Plant Pathology, 2014) Adriko, John; Mbega, Ernest Rashid; Mortensen, Carmen Nieves; Gadelha Wulff, Ednar; Kateera Tushemereirwe, Wilberforce; Kubiriba, Jerome; Lund, Ole Søgaard
    A PCR-based system was developed to reliably and robustly identify group I and II members of the genus Xanthomonas. Primer sets developed from three gene targets namely fyuA, ITS and gumD were evaluated in the study. Primer sets were evaluated using DNA extracted from 45 Xanthomonas strains representing 25 species broadly covering the genus. Fifteen non- Xanthomonas strains of plant-associated bacteria including phylogenetically closely related species Stenotrophomonas maltophilia and Xylella fastidiosa were also tested. The primers targeting fyuA amplified DNA from all xanthomonads except X. theicola, while the ITS primers amplified a DNA fragment of 254 bp in all 45 Xanthomonas strains; whereas no amplification was observed for non-xanthomonads. The gumD primers allowed efficient amplification of DNA in 38 out of 39 isolates from Group II, whereas no or very weak amplification occurred with DNA from Group I members. Internal controls of primers targeting bacterial 16S rDNA or plant 26S mitochondrial rDNA were successfully applied in multiplex PCRs for testing bacterial cultures or plant tissue, respectively. The findings give us a PCR based approach that can reliably and effectively differentiate xanthomonads from nonxanthomonads as well as separating the strains belonging to the two described groups of the genus Xanthomonas. The study thus offers valuable tools for disease surveillance and management. It can effectively be applied in rapid assessment of new disease occurrences, for which no specific detection tools could be in place.