Differences in parasitism of Meloidogyne incognita and two genotypes of M.ￂ arenaria on Solanum torvum in Japan

Two genotypes of root-knot nematode, Meloidogyne arenaria (A2-O and A2-J), are found in Japan. They were distinguished from each other based on mitochondrial DNA sequences. The primer set (C2F3/1108) amplified a 1.7-kb fragment from A2-J, whereas a 1.1-kb fragment was amplified from A2-O. M. arenari...

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Veröffentlicht in:	Journal of phytopathology 2017-09, Vol.165 (9), p.575
Hauptverfasser:	Uehara, Taketo, Tateishi, Yasushi, Kadota, Yasuhiro, Iwahori, Hideaki
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Sprache:	eng
Schlagworte:	Cultivars Cultivation Deoxyribonucleic acid DNA Gene sequencing Genotypes Meloidogyne incognita Mitochondrial DNA Nucleotide sequence Parasitism Populations
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creator	Uehara, Taketo Tateishi, Yasushi Kadota, Yasuhiro Iwahori, Hideaki
description	Two genotypes of root-knot nematode, Meloidogyne arenaria (A2-O and A2-J), are found in Japan. They were distinguished from each other based on mitochondrial DNA sequences. The primer set (C2F3/1108) amplified a 1.7-kb fragment from A2-J, whereas a 1.1-kb fragment was amplified from A2-O. M. arenaria (A2-O) was detected in local regions of southern Japan, whereas M. arenaria (A2-J) was widespread from the Kyushu region to the Tohoku region. The distribution of M. arenaria (A2-J) overlaps with the cultivation area of eggplant. Solanum torvum is used worldwide as a rootstock for eggplant cultivation, and it is resistant to Meloidogyne spp. In particular, it is reported that S. torvum is resistant to M. arenaria outside Japan. In this study, we inoculated S. torvum rootstock cultivars with M. arenaria (A2-J), M. arenaria (A2-O) and Meloidogyne incognita populations. Although M. incognita and M. arenaria (A2-O) produced only a few egg masses on S. torvum, thereby confirming its resistance, the four geographical populations of M. arenaria (A2-J) produced large numbers of egg masses on S. torvum. This study confirmed that S. torvum is resistant to M. incognita and M. arenaria (A2-O) populations, but susceptible to populations of M. arenaria (A2-J) in the eggplant production area of Japan.
doi_str_mv	10.1111/jph.12594
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They were distinguished from each other based on mitochondrial DNA sequences. The primer set (C2F3/1108) amplified a 1.7-kb fragment from A2-J, whereas a 1.1-kb fragment was amplified from A2-O. M. arenaria (A2-O) was detected in local regions of southern Japan, whereas M. arenaria (A2-J) was widespread from the Kyushu region to the Tohoku region. The distribution of M. arenaria (A2-J) overlaps with the cultivation area of eggplant. Solanum torvum is used worldwide as a rootstock for eggplant cultivation, and it is resistant to Meloidogyne spp. In particular, it is reported that S. torvum is resistant to M. arenaria outside Japan. In this study, we inoculated S. torvum rootstock cultivars with M. arenaria (A2-J), M. arenaria (A2-O) and Meloidogyne incognita populations. Although M. incognita and M. arenaria (A2-O) produced only a few egg masses on S. torvum, thereby confirming its resistance, the four geographical populations of M. arenaria (A2-J) produced large numbers of egg masses on S. torvum. 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subjects	Cultivars Cultivation Deoxyribonucleic acid DNA Gene sequencing Genotypes Meloidogyne incognita Mitochondrial DNA Nucleotide sequence Parasitism Populations
title	Differences in parasitism of Meloidogyne incognita and two genotypes of M.ￂ arenaria on Solanum torvum in Japan
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