Unveiling the dynamic relationship of viruses and/or symbiotic bacteria with plant resilience in abiotic stress.

Vasudha Sharma, Shakeel A Mohammed, Nisha Devi, Gourav Vats, Hardeep S Tuli, Adesh K Saini, Yashika W Dhir, Sunny Dhir, Bharat Singh
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Abstract

In the ecosphere, plants interact with environmental biotic and abiotic partners, where unbalanced interactions can induce unfavourable stress conditions. Abiotic factors (temperature, water, and salt) are primarily required for plants healthy survival, and any change in their availability is reflected as a stress signal. In certain cases, the presence of infectious pathogens such as viruses, bacteria, fungi, protozoa, nematodes, and insects can also create stress conditions in plants, leading to the emergence of disease or deficiency symptoms. While these symptoms are often typical of abiotic or biotic stress, however, there are instances where they can intensify under specific conditions. Here, we primarily summarize the viral interactions with plants during abiotic stress to understand how these associations are linked together during viral pathogenesis. Secondly, focus is given to the beneficial effects of root-associated symbiotic bacteria in fulfilling the basic needs of plants during normal as well as abiotic stress conditions. The modulations of plant functional proteins, and their occurrence/cross-talk, with pathogen (virus) and symbiont (bacteria) molecules are also discussed. Furthermore, we have highlighted the biochemical and systematic adaptations that develop in plants due to bacterial symbiosis to encounter stress hallmarks. Lastly, directions are provided towards exploring potential rhizospheric bacteria to maintain plant-microbes ecosystem and manage abiotic stress in plants to achieve better trait health in the horticulture crops.

揭示病毒和/或共生细菌与植物在非生物胁迫下恢复能力的动态关系。
在生态圈中,植物与环境中的生物和非生物伙伴相互作用,不平衡的相互作用会导致不利的胁迫条件。非生物因素(温度、水和盐)是植物健康生存的主要条件,其可用性的任何变化都会反映为压力信号。在某些情况下,病毒、细菌、真菌、原生动物、线虫和昆虫等传染性病原体的存在也会对植物造成胁迫条件,导致出现疾病或缺素症状。虽然这些症状通常是典型的非生物或生物胁迫症状,但在某些情况下,它们会在特定条件下加剧。在此,我们主要总结了非生物胁迫期间病毒与植物的相互作用,以了解病毒致病过程中这些关联是如何联系在一起的。其次,我们将重点关注根系相关共生细菌在正常和非生物胁迫条件下满足植物基本需求的有益作用。我们还讨论了植物功能蛋白的调节及其与病原体(病毒)和共生体(细菌)分子之间的相互作用/交叉对话。此外,我们还强调了植物因细菌共生而在遭遇胁迫时产生的生化和系统适应。最后,我们为探索潜在的根瘤菌提供了方向,以维护植物-微生物生态系统,管理植物的非生物压力,实现园艺作物更好的性状健康。
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