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

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

doi:10.1007/s44154-023-00126-w

Stress Biology

2024

DOI: 10.1007/s44154-023-00126-w

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

Vasudha Sharma,

Shakeel A. Mohammed,

Nisha Devi

et al.

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… Show more

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Cited by 5 publications

References 217 publications

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Metabolites-induced co-evolutionary warfare between plants, viruses, and their associated vectors: So close yet so far away

Ahmad,

Hussain,

Naeem

et al. 2024

Plant Science

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Metabolites-induced co-evolutionary warfare between plants, viruses, and their associated vectors: So close yet so far away

Ahmad,

Hussain,

Naeem

et al. 2024

Plant Science

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Calcium (Ca2+) signaling in plants: A plant stress perspective

Naz,

Afzal,

Raza

et al. 2024

South African Journal of Botany

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Construction and characterization of an infectious cDNA clone of turtle grass virus X from a naturally infected Thalassia testudinum plant

Alvarado-Marchena,

Furman,

Breitbart

2024

mBio

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Seagrasses are a polyphyletic group of marine flowering plants that play crucial roles in nearshore ecology, yet their interactions with viruses remain largely unexplored. This study presents the construction and characterization of an infectious cDNA clone of the potexvirus turtle grass virus X (TGVX). The complete genome of this positive-sense single-stranded RNA virus was amplified from field samples of Thalassia testudinum and assembled into a pLX-based mini binary vector using a multi-fragment directional cloning strategy, resulting in the infectious clone pLX-TGVX. Agroinfection assays of potexvirus-free T. testudinum plants resulted in systemic infections by TGVX, as confirmed by multiplex RT-PCR experiments and phenotypic changes reflecting virus-induced symptoms. Ultrastructural studies also demonstrated significant cytopathological changes resulting from TGVX infection, including chloroplast swelling, reduced thylakoid grana, and the presence of viral replication organelles and filamentous virus-like particles. The development of the TGVX infectious clone offers a novel tool for investigating the impact of this virus on seagrass health and productivity. This study demonstrates the first successful agroinfection of a marine plant with an infectious clone, creating a new avenue for studying viruses identified through sequence-based surveys and paving the way for exploring the ecological significance of viral infection in these critical marine ecosystems. IMPORTANCE This study pioneers the construction of an infectious clone of turtle grass virus X and describes its application in the natural marine plant host, Thalassia testudinum . The creation of this infectious clone not only provides a valuable tool for marine plant virology research but also opens new avenues for exploring the influence of viral infections on the health and productivity of seagrass meadows. Given that seagrasses play a crucial role in sediment stabilization, nutrient cycling, and habitat provisioning, understanding the impact of viruses on these ecosystems is essential for their effective conservation and management. This methodological advance enables detailed studies of viral replication, virus-host interactions, and the broader ecological implications of viral infections in marine plants.

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

Cited by 5 publications

References 217 publications

Metabolites-induced co-evolutionary warfare between plants, viruses, and their associated vectors: So close yet so far away

Metabolites-induced co-evolutionary warfare between plants, viruses, and their associated vectors: So close yet so far away

Calcium (Ca2+) signaling in plants: A plant stress perspective

Construction and characterization of an infectious cDNA clone of turtle grass virus X from a naturally infected Thalassia testudinum plant

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