Improving evaluation of potato resistance to Rhizoctonia solani infection by optimizing inoculum-based method combined with toxin-based assay

Rhizoctonia solani causes stem canker and significantly impacts potato production. Conventional assay to evaluate potato resistance using R. solani inoculum is time consuming. To establish an effective and fast assay, 20 potato cultivars/lines were examined using both R. solani AG2-1 as an inoculum...

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Published inCrop protection Vol. 144; p. 105544
Main Authors Zhang, Xiaoyu, Li, Dezhou, Huo, Hongli, Xing, Xing, Lian, Yong, Yu, Zhuo, Hao, Jianjun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2021
Subjects
Disease resistance
Potato
Rhizoctonia solani AG2-1
Stem canker
Rhizoctonia solani AG2-1
Potato
Stem canker
Disease resistance
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Abstract Rhizoctonia solani causes stem canker and significantly impacts potato production. Conventional assay to evaluate potato resistance using R. solani inoculum is time consuming. To establish an effective and fast assay, 20 potato cultivars/lines were examined using both R. solani AG2-1 as an inoculum and its derived toxin (RS toxin). In field trials of 2009 and 2010, wheat-bran-mediated inoculum of R. solani AG2-1 was incorporated at either 0, 2, 3, 4 or 5 g per seed piece in the soil before sowing in the furrow. Stem canker was evaluated sixty-five days after planting. Inoculation at 2, 3, or 4 g R. solani AG2-1 well distinguished resistance of potato cultivars/lines. For a quick assay of resistance screening, a toxin-based method was established by treating potato seedlings with RS toxin of R. solani AG2-1. RS toxin was prepared by heating R. solani AG2-1 culture. Potato seedlings were obtained through tissue culture and grown in Murashige and Skoog medium. Seedlings at the stage of 12 cm in height were transferred into agar amended with RS toxin and incubated for eight days. The level of inhibition caused by RS toxin was positively correlated with toxin concentration. By evaluating various potato cultivars/liens that have different sensitivities to toxin, the inhibition was from 33% to 100% on potato stems sections and from 32% to 148% on seedlings. The toxin-based evaluation was highly correlated with field data using pathogen inoculum (r = 0.731, P < 0.01). Inoculation with wheat bran-mediated R. solani AG2-1 of 2, 3 or 4 g per seed piece was effective in field evaluations. The toxin-based assay improved the efficiency of disease resistance evaluation. Both assays showed that none of the 20 potato cultivars/liens was completely resistant to R. solani AG2-1. However, cultivar ‘Desiree’ had the lowest level of disease, whereas ‘Atlantic’, ‘Favorita’, and ‘Shepody’ were the most susceptible cultivars. •Rhizoctonia solani toxin is a major contributor to pathogenicity.•The toxin can be used for pathogenicity assay.•The toxin-based method is easy, fast and reliable and can be used for large germplasm screening for disease resistance.
AbstractList Rhizoctonia solani causes stem canker and significantly impacts potato production. Conventional assay to evaluate potato resistance using R. solani inoculum is time consuming. To establish an effective and fast assay, 20 potato cultivars/lines were examined using both R. solani AG2-1 as an inoculum and its derived toxin (RS toxin). In field trials of 2009 and 2010, wheat-bran-mediated inoculum of R. solani AG2-1 was incorporated at either 0, 2, 3, 4 or 5 g per seed piece in the soil before sowing in the furrow. Stem canker was evaluated sixty-five days after planting. Inoculation at 2, 3, or 4 g R. solani AG2-1 well distinguished resistance of potato cultivars/lines. For a quick assay of resistance screening, a toxin-based method was established by treating potato seedlings with RS toxin of R. solani AG2-1. RS toxin was prepared by heating R. solani AG2-1 culture. Potato seedlings were obtained through tissue culture and grown in Murashige and Skoog medium. Seedlings at the stage of 12 cm in height were transferred into agar amended with RS toxin and incubated for eight days. The level of inhibition caused by RS toxin was positively correlated with toxin concentration. By evaluating various potato cultivars/liens that have different sensitivities to toxin, the inhibition was from 33% to 100% on potato stems sections and from 32% to 148% on seedlings. The toxin-based evaluation was highly correlated with field data using pathogen inoculum (r = 0.731, P < 0.01). Inoculation with wheat bran-mediated R. solani AG2-1 of 2, 3 or 4 g per seed piece was effective in field evaluations. The toxin-based assay improved the efficiency of disease resistance evaluation. Both assays showed that none of the 20 potato cultivars/liens was completely resistant to R. solani AG2-1. However, cultivar ‘Desiree’ had the lowest level of disease, whereas ‘Atlantic’, ‘Favorita’, and ‘Shepody’ were the most susceptible cultivars. •Rhizoctonia solani toxin is a major contributor to pathogenicity.•The toxin can be used for pathogenicity assay.•The toxin-based method is easy, fast and reliable and can be used for large germplasm screening for disease resistance.
ArticleNumber 105544
Author Huo, Hongli
Li, Dezhou
Yu, Zhuo
Xing, Xing
Lian, Yong
Zhang, Xiaoyu
Hao, Jianjun
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  givenname: Jianjun
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  fullname: Hao, Jianjun
  email: jianjun.hao1@maine.edu
  organization: School of Food and Agriculture, University of Maine, Orono, ME, 04469, USA
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Keywords Rhizoctonia solani AG2-1
Potato
Stem canker
Disease resistance
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Snippet Rhizoctonia solani causes stem canker and significantly impacts potato production. Conventional assay to evaluate potato resistance using R. solani inoculum is...
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SubjectTerms Disease resistance
Potato
Rhizoctonia solani AG2-1
Stem canker
Title Improving evaluation of potato resistance to Rhizoctonia solani infection by optimizing inoculum-based method combined with toxin-based assay
URI https://dx.doi.org/10.1016/j.cropro.2021.105544
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