Quantitative nested real-time PCR detection of Verticillium longisporum and V. dahliae in the soil of cabbage fields |
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| Authors: | Shinpei Banno Hidenari Saito Hiroshi Sakai Toshihiko Urushibara Kentaro Ikeda Takeshi Kabe Isao Kemmochi Makoto Fujimura |
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| Affiliation: | (1) Plant Regulation Research Center, Toyo University, 1-1-1 Izumino, Itakura, Ora Gunma, 374-0193, Japan;(2) Faculty of Life Sciences, Toyo University, 1-1-1 Izumino, Itakura, Ora Gunma, 374-0193, Japan;(3) Gunma Agricultural Technology Center, 493 Nishi-Obokata, Isesaki Gunma, 379-2224, Japan;(4) Gunma Prefectural Office, 1-1-1, Ote, Maebashi Gunma, 371-8570, Japan;(5) Agatsuma Agricultural Office in Gunma Prefecture, 664, Nakanojo, Nakanojo, Agatsuma Gunma, 377-0424, Japan |
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| Abstract: | ![]()
Verticillium longisporum and V. dahliae, causal agents of Verticillium wilt, are spreading through the cabbage fields of Gunma Prefecture. Using the V. longisporum-specific intron within the 18S rDNA and differences between ITS 5.8S rDNA sequences in Japanese isolates of V. longisporum and V. dahliae, we developed three quantitative nested real-time (QNRT) PCR assays. The QNRT-PCR quantification of V. longisporum or V. dahliae in cabbage field soil was consistent with the severity of Verticillium wilt disease in those fields. In field trials of resistant cultivar YR Ranpo grown for three seasons in soil infested with the pathogen, disease severity and pathogen density in the soil were significantly reduced in a field moderately contaminated by V. dahliae, but only slightly reduced in a highly contaminated field. These results suggest that continuous cultivation of a resistant cultivar is an effective way to reduce the pathogen population. QNRT-PCR assays provide a powerful analytical tool to evaluate the soil population dynamics of V. longisporum and V. dahliae for disease management. |
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