• Korean Journal of Plant Resources
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• v.30 no.5
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• pp.542-548
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• 2017

Two different races of Botryris cinerea were selected by the response of plant leaves to the pathogen infection. Based on lesion size of the pathogen on the leaves, turnip showed susceptible response to 'Grape-01' race, and resistant to 'Orange' race. Turnip leaves infected with resistant pathogen race, "Orange", showed significantly higher content of indole-3-ylmethyl glucosinolate (I3M) than those infected with susceptible race, 'Grape-01'. Contents of I3M in the leaves with resistant 'Orange' race was 2.5 times as high as that in uninfected leaves, whereas I3M in the leaves infected with susceptible 'Grape-01' race showed lower content than in untreated leaves. Growth of turnip suspension cells was significantly inhibited by the treatment of MeOH extract or water extract of 'Orange' race as compared with the treatment of susceptible race, 'Grape-01'. Treatment of MeOH or water extract from 'Orange' race to turnip suspension cells, strongly inhibited cell viability up to 22.7% or 16.5%, respectively. However, plant cells treated with MeOH or water extract from resistant race, 'Orange' showed higher I3M content than that from susceptible race, 'Grape-01'. These results suggest that accumulation and degradation of I3M glucosinolate in turnip cells closely related to the resistance and susceptibility of turnip cells to Botrytis cinerea.

• Korean Journal of Plant Resources
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• v.27 no.4
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• pp.371-379
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• 2014

In order to determine the response of turnip leaves to various races of Botrytis cinerea, fourteen different races were infected to the leaf surface and measured the lesion size. Based on lesion size of the pathogen on the leaves, turnip showed susceptible response to four races, moderate to seven races and resistant to three races. Four glucosinolate (GLS) compounds, such as butenyl GLS, indole-3ylmethyl GLS (I3M), 4-methoxy-indole-3-ylmethyl GLS (4MOI3M) and normal methoxy-indole-3ylmethyl GLS (NMOI3M) were identified in turnip leaves infected with Botrytis cinerea. Leaves infected with resistant races showed higher GLS contents as compared with the leaves infected with susceptible races. Contents of I3M in the leaves with resistant races were 2.5 times as high as those in uninfected leaves, whereas I3M in the leaves with susceptible races showed lower contents than those in untreated leaves. Leaves infected with resistant races showed 4MOI3M and NMOI3M contents 2.3 and 2.7 times as high as those in uninfected leaves, respectively. GLSs in the infected leaves were most abundant at 5~10 mm area from center of the lesion. However, the GLSs in 5~10 mm area were rapidly degradated at leaves with susceptible races which resulted in continuous expansion of the lesion on the leaves, whereas no degradation was obseveved at leaves with resistant races. These results suggest that accumulation and degradation of GLS compounds in turnip leaves closely related to the susceptibility and resistance of turnip leaves to Botrytis races.