Effects of light intensity on the susceptibility of Nicotiana tabacum to cucumber mosaic virus

Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m⁻² s⁻¹, HL) compared with those grown in low light (70 µmol m⁻² s⁻¹, LL). Several characteristic defense reactions, including release of reactiv...

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Published in	Journal of general plant pathology : JGPP Vol. 81; no. 5; pp. 399 - 408
Main Authors	Chen, Li-Juan, Ren, Han, Deng, Xing-Guang, Li, Ya-Nan, Cha, Wen-Qiong, Lin, Hong-Hui, Xi, De-Hui
Format	Journal Article
Language	English
Published	Tokyo Springer Japan 01.09.2015 Springer Nature B.V
Subjects	Agriculture Biomedical and Life Sciences Cucumber mosaic virus Cucumbers Cytomegalovirus Disease Control genes Life Sciences Light Light intensity messenger RNA Microbiology Nicotiana tabacum Oxygen pathogenesis pathogenesis-related proteins Plant diseases Plant Pathology Planting density reactive oxygen species salicylic acid signal transduction Viruses Light intensity Cucumber mosaic virus (CMV) Plant defense Salicylic acid (SA) Reactive oxygen species (ROS)
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Abstract	Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m⁻² s⁻¹, HL) compared with those grown in low light (70 µmol m⁻² s⁻¹, LL). Several characteristic defense reactions, including release of reactive oxygen species, accumulation of salicylic acid (SA), expression of SA-mediated pathogenesis related (PR) proteins and the systemic development of disease, were proved to be light dependent. Plants exposed to HL or medium light (150 µmol m⁻² s⁻¹, ML) had serious oxidative damage caused by CMV infection compared with LL-plants. In addition, the levels of SA and mRNA transcripts for non-expressor of pathogenesis-related gene 1 in CMV-inoculated plants were the highest under LL with decreasing photon flux density. In HL-exposed plants, the expression of PR1 and PR2 were repressed, but the expression of PR5 was not significantly altered, revealing a complex cross talk between light intensity and the SA signaling pathway in regulating N. tabacum response to the infection of CMV. Taken together, our results revealed that increased light intensity reduced the resistance ability of N. tabacum to CMV, correlating with repression of the SA-dependent signaling pathway and a change in the cellular redox status in plants cells.
AbstractList	Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m^sup -2^ s^sup -1^, HL) compared with those grown in low light (70 µmol m^sup -2^ s^sup -1^, LL). Several characteristic defense reactions, including release of reactive oxygen species, accumulation of salicylic acid (SA), expression of SA-mediated pathogenesis related (PR) proteins and the systemic development of disease, were proved to be light dependent. Plants exposed to HL or medium light (150 µmol m^sup -2^ s^sup -1^, ML) had serious oxidative damage caused by CMV infection compared with LL-plants. In addition, the levels of SA and mRNA transcripts for non-expressor of pathogenesis-related gene 1 in CMV-inoculated plants were the highest under LL with decreasing photon flux density. In HL-exposed plants, the expression of PR1 and PR2 were repressed, but the expression of PR5 was not significantly altered, revealing a complex cross talk between light intensity and the SA signaling pathway in regulating N. tabacum response to the infection of CMV. Taken together, our results revealed that increased light intensity reduced the resistance ability of N. tabacum to CMV, correlating with repression of the SA-dependent signaling pathway and a change in the cellular redox status in plants cells. Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 mu mol m super(-2) s super(-1), HL) compared with those grown in low light (70 mu mol m super(-2) s super(-1), LL). Several characteristic defense reactions, including release of reactive oxygen species, accumulation of salicylic acid (SA), expression of SA-mediated pathogenesis related (PR) proteins and the systemic development of disease, were proved to be light dependent. Plants exposed to HL or medium light (150 mu mol m super(-2) s super(-1), ML) had serious oxidative damage caused by CMV infection compared with LL-plants. In addition, the levels of SA and mRNA transcripts for non-expressor of pathogenesis-related gene 1 in CMV-inoculated plants were the highest under LL with decreasing photon flux density. In HL-exposed plants, the expression of PR1 and PR2 were repressed, but the expression of PR5 was not significantly altered, revealing a complex cross talk between light intensity and the SA signaling pathway in regulating N. tabacum response to the infection of CMV. Taken together, our results revealed that increased light intensity reduced the resistance ability of N. tabacum to CMV, correlating with repression of the SA-dependent signaling pathway and a change in the cellular redox status in plants cells. Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m⁻² s⁻¹, HL) compared with those grown in low light (70 µmol m⁻² s⁻¹, LL). Several characteristic defense reactions, including release of reactive oxygen species, accumulation of salicylic acid (SA), expression of SA-mediated pathogenesis related (PR) proteins and the systemic development of disease, were proved to be light dependent. Plants exposed to HL or medium light (150 µmol m⁻² s⁻¹, ML) had serious oxidative damage caused by CMV infection compared with LL-plants. In addition, the levels of SA and mRNA transcripts for non-expressor of pathogenesis-related gene 1 in CMV-inoculated plants were the highest under LL with decreasing photon flux density. In HL-exposed plants, the expression of PR1 and PR2 were repressed, but the expression of PR5 was not significantly altered, revealing a complex cross talk between light intensity and the SA signaling pathway in regulating N. tabacum response to the infection of CMV. Taken together, our results revealed that increased light intensity reduced the resistance ability of N. tabacum to CMV, correlating with repression of the SA-dependent signaling pathway and a change in the cellular redox status in plants cells. Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m⁻² s⁻¹, HL) compared with those grown in low light (70 µmol m⁻² s⁻¹, LL). Several characteristic defense reactions, including release of reactive oxygen species, accumulation of salicylic acid (SA), expression of SA-mediated pathogenesis related (PR) proteins and the systemic development of disease, were proved to be light dependent. Plants exposed to HL or medium light (150 µmol m⁻² s⁻¹, ML) had serious oxidative damage caused by CMV infection compared with LL-plants. In addition, the levels of SA and mRNA transcripts for non-expressor of pathogenesis-related gene 1 in CMV-inoculated plants were the highest under LL with decreasing photon flux density. In HL-exposed plants, the expression of PR1 and PR2 were repressed, but the expression of PR5 was not significantly altered, revealing a complex cross talk between light intensity and the SA signaling pathway in regulating N. tabacum response to the infection of CMV. Taken together, our results revealed that increased light intensity reduced the resistance ability of N. tabacum to CMV, correlating with repression of the SA-dependent signaling pathway and a change in the cellular redox status in plants cells. Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m −2 s −1 , HL) compared with those grown in low light (70 µmol m −2 s −1 , LL). Several characteristic defense reactions, including release of reactive oxygen species, accumulation of salicylic acid (SA), expression of SA-mediated pathogenesis related (PR) proteins and the systemic development of disease, were proved to be light dependent. Plants exposed to HL or medium light (150 µmol m −2 s −1 , ML) had serious oxidative damage caused by CMV infection compared with LL-plants. In addition, the levels of SA and mRNA transcripts for non - expressor of pathogenesis - related gene 1 in CMV-inoculated plants were the highest under LL with decreasing photon flux density. In HL-exposed plants, the expression of PR1 and PR2 were repressed, but the expression of PR5 was not significantly altered, revealing a complex cross talk between light intensity and the SA signaling pathway in regulating N. tabacum response to the infection of CMV. Taken together, our results revealed that increased light intensity reduced the resistance ability of N. tabacum to CMV, correlating with repression of the SA-dependent signaling pathway and a change in the cellular redox status in plants cells.
Author	Ren, Han Li, Ya-Nan Lin, Hong-Hui Deng, Xing-Guang Cha, Wen-Qiong Xi, De-Hui Chen, Li-Juan
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Keywords	Light intensity Cucumber mosaic virus (CMV) Plant defense Salicylic acid (SA) Reactive oxygen species (ROS)
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Snippet	Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m⁻²... Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m −2... Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol... Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 mu mol m... Disease development in Nicotiana tabacum after inoculation with cucumber mosaic virus (CMV) was accelerated when plants were grown in high light (300 µmol m⁻²...
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StartPage	399
SubjectTerms	Agriculture Biomedical and Life Sciences Cucumber mosaic virus Cucumbers Cytomegalovirus Disease Control genes Life Sciences Light Light intensity messenger RNA Microbiology Nicotiana tabacum Oxygen pathogenesis pathogenesis-related proteins Plant diseases Plant Pathology Planting density reactive oxygen species salicylic acid signal transduction Viruses
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Title	Effects of light intensity on the susceptibility of Nicotiana tabacum to cucumber mosaic virus
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