Kumar Susheel, Chauhan Puneet Singh, Agrawal Lalit, Raj Rashmi, Srivastava Ashish, Gupta Swati, Mishra Shashank Kumar, Yadav Sumit, Singh Poonam C, Raj Shri Krishna, Nautiyal Chandra Shekhar
Plant Molecular Virology Laboratory, Council of Scientific and Industrial (CSIR)-National Botanical Research Institute (NBRI), Rana Pratap Marg, Lucknow (UP), India.
Division of Plant Microbe Interaction, CSIR-NBRI, Rana Pratap Marg, Lucknow (UP), India.
PLoS One. 2016 Mar 2;11(3):e0149980. doi: 10.1371/journal.pone.0149980. eCollection 2016.
Previous studies with Paenibacillus lentimorbus B-30488" (hereafter referred as B-30488), a plant growth promoting rhizobacteria (PGPR) isolated from cow's milk, revealed its capabilities to improve plant quality under normal and stress conditions. Present study investigates its potential as a biocontrol agent against an economically important virus, Cucumber mosaic virus (CMV), in Nicotiana tabacum cv. White Burley plants and delineates the physical, biophysical, biochemical and molecular perturbations due to the trilateral interactions of PGPR-host-CMV. Soil inoculation of B-30488 enhanced the plant vigor while significantly decreased the virulence and virus RNA accumulation by ~12 fold (91%) in systemic leaves of CMV infected tobacco plants as compared to the control ones. Histology of these leaves revealed the improved tissue's health and least aging signs in B-30488 inoculated tobacco plants, with or without CMV infection, and showed lesser intercellular spaces between collenchyma cells, reduced amount of xyloglucans and pectins in connecting primary cells, and higher polyphenol accumulation in hypodermis layer extending to collenchyma cells. B-30488 inoculation has favorably maneuvered the essential biophysical (ion leakage and photosynthetic efficiency) and biochemical (sugar, proline, chlorophyll, malondialdehyde, acid phosphatase and alkaline phosphatase) attributes of tobacco plants to positively regulate and release the virus stress. Moreover, activities of defense related enzymes (ascorbate peroxidase, guaiacol peroxidase, superoxide dismutase and catalase) induced due to CMV-infection were ameliorated with inoculation of B-30488, suggesting systemic induced resistance mediated protection against CMV in tobacco. The quantitative RT-PCR analyses of the genes related to normal plant development, stress and pathogenesis also corroborate well with the biochemical data and revealed the regulation (either up or down) of these genes in favor of plant to combat the CMV mediated stress. These improvements led tobacco plant to produce more flowers and seeds with no negative impact on plant health. The present study may advocate the applicability of B-30488 for crop yield improvement in virus infested areas.
先前对从牛奶中分离出的植物促生根际细菌(PGPR)迟缓芽孢杆菌B - 30488(以下简称B - 30488)的研究表明,它能够在正常和胁迫条件下提高植物品质。本研究调查了其作为生物防治剂对抗经济上重要的病毒——黄瓜花叶病毒(CMV)在烟草品种白肋烟植株中的潜力,并描述了由于PGPR - 宿主 - CMV三边相互作用引起的物理、生物物理、生化和分子扰动。与对照相比,土壤接种B - 30488增强了植株活力,同时显著降低了CMV感染烟草植株系统叶中的病毒毒力和病毒RNA积累约12倍(91%)。这些叶片的组织学研究表明,接种B - 30488的烟草植株,无论是否感染CMV,其组织健康状况得到改善,衰老迹象最少,厚角组织细胞间的细胞间隙较小,连接原代细胞中的木葡聚糖和果胶含量减少,并且在延伸至厚角组织细胞的皮下层中多酚积累量更高。接种B - 30488有利地调控了烟草植株的基本生物物理(离子渗漏和光合效率)和生化(糖、脯氨酸、叶绿素、丙二醛、酸性磷酸酶和碱性磷酸酶)特性,以积极调节并缓解病毒胁迫。此外,接种B - 30488改善了因CMV感染诱导的防御相关酶(抗坏血酸过氧化物酶、愈创木酚过氧化物酶、超氧化物歧化酶和过氧化氢酶)的活性,表明在烟草中存在系统诱导抗性介导的对CMV的保护作用。对与正常植物发育、胁迫和发病机制相关基因的定量RT - PCR分析也与生化数据很好地相符,并揭示了这些基因的上调或下调调控有利于植物对抗CMV介导的胁迫。这些改善使烟草植株产生更多的花和种子,且对植株健康没有负面影响。本研究可能支持B - 30488在病毒侵染地区提高作物产量方面的适用性。
