Strayer A, Ocsoy I, Tan W, Jones J B, Paret M L
Department of Plant Pathology, University of Florida, Gainesville 32611.
Department of Analytical Chemistry, Faculty of Pharmacy, Erciyes University, Kayseri, Turkey, and Nanotechnology Research Center, Erciyes University, Kayseri, Turkey.
Plant Dis. 2016 Jul;100(7):1460-1465. doi: 10.1094/PDIS-05-15-0580-RE. Epub 2016 Mar 10.
Bacterial spot, caused by four Xanthomonas spp., is one of the most damaging diseases of tomato worldwide. Due to limited disease management options, growers rely heavily on copper-based bactericides, which are often ineffective due to the presence of copper-resistant Xanthomonas strains. This study was undertaken to characterize the antibacterial activity of a silver-based nanocomposite, Ag-dsDNA-GO, and its potential as an alternative to copper. Ag-dsDNA-GO at rates as low as 10 μg/ml killed all bacterial cells of copper-tolerant and -sensitive Xanthomonas perforans strains in suspensions containing approximately 10 CFU/ml within 15 min of exposure in vitro, whereas equivalent rates of copper (10, 25, and 50 μg/ml) were unable to significantly reduce populations compared with the untreated control after 24 h of exposure (P = 0.05). All copper concentrations killed the copper-sensitive X. perforans strain but required exposure for ≥1 h. Ag-dsDNA-GO also exhibited antibacterial activity against copper-tolerant X. vesicatoria, X. euvesicatoria, and X. gardneri strains. In greenhouse studies, tomato plants treated with Ag-dsDNA-GO at either 75 or 100 μg/ml prior to artificial inoculation significantly reduced disease severity when compared with copper-mancozeb and negative controls (P = 0.05). This study highlights the potential of Ag-dsDNA-GO as an alternative to copper in tomato transplant production.
由四种黄单胞菌引起的细菌性斑点病是全球番茄最具破坏性的病害之一。由于病害管理选择有限,种植者严重依赖铜基杀菌剂,但由于存在抗铜黄单胞菌菌株,这些杀菌剂往往无效。本研究旨在表征银基纳米复合材料Ag-dsDNA-GO的抗菌活性及其作为铜替代品的潜力。在体外暴露15分钟内,低至10μg/ml的Ag-dsDNA-GO就能杀死含有约10CFU/ml的悬浮液中耐铜和敏感的穿孔黄单胞菌菌株的所有细菌细胞,而同等浓度的铜(10、25和50μg/ml)在暴露24小时后与未处理对照相比,无法显著减少菌量(P = 0.05)。所有铜浓度都能杀死对铜敏感的穿孔黄单胞菌菌株,但需要暴露≥1小时。Ag-dsDNA-GO对耐铜的疮痂黄单胞菌、致病变种黄单胞菌和加氏黄单胞菌菌株也表现出抗菌活性。在温室研究中,与铜-代森锰锌和阴性对照相比,人工接种前用75或100μg/ml的Ag-dsDNA-GO处理番茄植株可显著降低病害严重程度(P = 0.05)。本研究突出了Ag-dsDNA-GO在番茄移栽生产中作为铜替代品的潜力。
