Tobacco is one of the vital economic crops in China. Nevertheless, tobacco diseases cause substantial economic losses each year. Tobacco target spot is a fungal disease which commonly found on the leaves. While both sexual and asexual reproduction can occur, asexual reproduction is much more common in tobacco. In June 2022, target spot was found on tobacco leaf samples from Yibin, Sichuan Province and Meitan, Guizhou Province, China. The typical symptoms were light brown tissue with concentric ring marks, and the necrotic part of the disease spot was fragile and forming perforation after falling off. The diseased tissue in the sample was cut off and sterilized in 75% ethanol for 1 min, and rinsed three times in sterilized distilled water. Finally, the tissues were placed on potato glucose agar (PDA) medium with kanamycin (0.1 mg/mL). After incubation at 28 °C in darkness for 3 days,the culture of the isolate grew in the form of radial mycelium on PDA dishes, the mycelium was white initially, turned brown generally at the later stage, and finally thickened and separated with the growth of the culture. Nine pathogenic strains were isolated, including four isolates from Yibin and five from Meitan. They were all used for pathogen identification. Genomic DNA of each isolate was extracted using the CATB method, and PCR analysis was performed with primers specifically designed to detect individual fusion groups or fusion subgroups of solani: AG-1 IA, IB, and IC; AG-3 PT; AG-4 HG-I, HG-II and HG-III; AGs-5-6 and P-21-22. Among the 11 specific primer pairs, only AG-5-specific primer amplified the fungal DNA, indicating that the nine isolates tested all belonged to the R. solani AG-5 fusion group. BLASTn search was performed on the gene sequences obtained from these strains and they deposited in GenBank under accession no. OP647851-OP647859. These gene sequences were aligned with the voucher specimen R. solani AG-5, with more than 99% similarity . The nine isolates were then tested for mycelial anastomosis reactions using the R. solani AG-5 standard strain following the method described by Ogoshi (1987). A decrease in the diameter of the mycelia at the anastomosis site and death of adjacent cells were observed, indicating their anastomosis response. Therefore, these nine strains were identified as R. solani AG-5 based on morphological and genetic analysis. Subsequently, one pathogenic strain from Meitan and another one from Yibin were selected for pathogenicity verification. Mycelial PDA blocks (6 mm in diameter) of the two isolates were inoculated on healthy tobacco plants, while leaves containing only PDA blocks were used as controls. A total of 6 replicates were conducted. After inoculation, they were incubated at 85% relative humidity and 15 to 25 °C. Koch's hypothesis was confirmed by reisolating pathogens from diseased leaves 5 days after inoculation. Typical symptoms were observed on tobacco plants inoculated with the pathogen strains but not on control tobacco plants. To the best of our knowledge, tobacco target spot has been reported caused by R. solani AG-3, AG-6 and AG-2.1 groups in the field in China and in Argentina. Up until now, this is the first report of R. solani AG-5 causing tobacco target spot on tobacco in the field in China. It was also found to be highly virulent to chickpea in Turkey. Due to serious damages caused by this disease in the last five years in China, more attention should be paid in disease control measures to avoid economic losses. In addition, it also provides some theoretical help for the damage caused by this pathogen on other hosts and helps people to better understand Rhizoctonia solani AG-5.
Keywords: Rhizoctonia solani AG-5; hyphal anastomosis reaction; tobacco target spot.