Host Plant Strategies to Combat Against Viruses Effector Proteins

Marwal, Avinash; Gaur, Rajarshi Kumar

doi:10.2174/1389202921999200712135131

Cited by 13 publications

(3 citation statements)

References 117 publications

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“…These were sourced from the metabolites and proteins of the host plants. The dominant resistance (R) genes (that confirm resistance) and corresponding avirulence protein (Avr) (pathogen Avr gene-encoded proteins [effector/elicitor proteins involved in pathogenicity]) are derived from plant proteins (Marwal and Gaur, 2020;De Ronde et al, 2014). A consistent feature of plant and phytovirus interactions requires specific molecular interactions, commonly via proteins (Dietzgen et al, 2016).…”

Section: Mechanisms Of Host Plant Resistance Against Phytovirusesmentioning

confidence: 99%

Phytovirus Vectors, Detection Techniques, and Future Directions

Wendimu

2023

Preprint

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The phytophagous insect pests were vectors and could transmit the majority of the phytoviruses to their host plants. The orders of Hemiptera and Thysanoptera were the most common vectors of phytoviruses. The orders Orthoptera, Dermaptera, Coleoptera, Lepidoptera, Diptera, Thysanoptera, and Hemiptera were also the vectors of phytoviruses. Furthermore, aphids, whiteflies, cicadas, spittlebugs, leafhoppers, planthoppers, assassin bugs, plant bugs, stink bugs, lygaeid bugs, and thrips were among the most phytophagous insects that vector and transmit phytoviruses to healthy plants. The occurrence of a single species of these phytophagous insects resulted in one or more phytoviruses in general, and the Hemipteran order, in particular, vectored a lot of phytoviruses species. This review manuscript is focused on vectors of phytoviruses, techniques for their detection, and future directions. It will play a vital role in exploring scientific information concerning the interactions of phytoviruses and vector insects, the effect of phytoviruses on host behavior, mediators of phytoviruses transmission, persistent phytoviruses, some other insect vectors of the phytopathogen, mechanisms of host plant resistance against phytoviruses, and techniques of phytoviruses detection, as well as some important points to be considered in the future sustainably.

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Section: Mechanisms Of Host Plant Resistance Against Phytovirusesmentioning

confidence: 99%

Phytovirus Vectors, Detection Techniques, and Future Directions

Wendimu

2023

Preprint

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“…An inverse transcriptase enzyme is required to transition from RNA to DNA in roughly 3% of plant viruses. Some three-quarters of identified plant viruses are ssDNA, but a few have the double-stranded genome of DNA (dsDNA), such as the Caulimoviridae family [ 38 , 39 ]. By way of comparison, almost a quarter of animal viruses have such a dsDNA genome [ 40 ].…”

Section: Viral Structure and Functionmentioning

confidence: 99%

The Viral Capsid As Novel Nanomaterials for Drug Delivery

Aljabali

Hassan²,

Pabari

et al. 2021

Future Sci. OA

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The purpose of this review is to highlight recent scientific developments and provide an overview of virus self-assembly and viral particle dynamics. Viruses are organized supramolecular structures with distinct yet related features and functions. Plant viruses are extensively used in biotechnology, and virus-like particulate matter is generated by genetic modification. Both provide a material-based means for selective distribution and delivery of drug molecules. Through surface engineering of their capsids, virus-derived nanomaterials facilitate various potential applications for selective drug delivery. Viruses have significant implications in chemotherapy, gene transfer, vaccine production, immunotherapy and molecular imaging.

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“…The third article by Marwal and Gaur describes specifically the plant-virus interactions and viral effector proteins [ 7 ]. Plant defense machinery is very difficult to understand as it behaves differently depending upon the type of pathogen attack.…”

Section: Editorialmentioning

confidence: 99%