Enhancing RNAi Efficiency to Decipher the Functional Response of Potential Genes in Bemisia tabaci AsiaII-1 (Gennadius) Through dsRNA Feeding Assays

Kaur, Ramandeep; Gupta, Mona; Singh, Satnam; Joshi, N.V.; Sharma, Abhishek

doi:10.3389/fphys.2020.00123

Cited by 25 publications

(28 citation statements)

References 101 publications

(137 reference statements)

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“…A slightly different strategy was used in sweet potato whitefly ( Bemisia tabaci ). Researchers mixed dsRNAs specific to endonucleases in the gut with target gene dsRNAs with the result that suppression of the target transcripts and mortality increased by 4‐ to 10‐fold 30 . In addition, Ae.…”

Section: Strategies For Enhancing Rnai Efficiencymentioning

confidence: 99%

“…Recent studies have provided insights into strategies for enhancing RNAi efficiency in insect pests even further by manipulating the structure of dsRNA molecules, 27 targeting multiple transcripts using a single dsRNA construct, 28 adding repeats of the same dsRNA sequence, 29 mixing dsRNAs, 30 or using other small RNA species (reviewed in Flynt 31 ). Studies have shown that adding additional gene targeting sequences 28 or adding repeats of the same targeting sequence 29 to a dsRNA enhances the toxicity of dsRNAs to two-spotted spider mite (Tetranychus urticae) or P. xylostella, respectively, in feeding assays.…”

Section: Modification Of the Dsrna Sequencementioning

confidence: 99%

“…Researchers mixed dsRNAs specific to endonucleases in the gut with target gene dsRNAs with the result that suppression of the target transcripts and mortality increased by 4-to 10-fold. 30 In addition, Ae. aegypti larvae were treated with long dsRNAs and paperclip dsRNAs (pcRNA) in which the dsRNA sequence folded back on itself, creating one half of a paperclip shape.…”

Section: Modification Of the Dsrna Sequencementioning

confidence: 99%

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Strategies for enhancing the efficiency of RNA interference in insects

Silver

Cooper

Zhu

2021

Pest Management Science

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Low RNA interference (RNAi) efficiency in many insect pests has significantly prevented its widespread application for insect pest management. This article provides a comprehensive review of recent research in developing various strategies for enhancing RNAi efficiency. Our review focuses on the strategies in target gene selection and double‐stranded RNA (dsRNA) delivery technologies. For target gene selection, genome‐wide or large‐scale screening strategies have been used to identify most susceptible target genes for RNAi. Other strategies include the design of dsRNA constructs and manipulate the structure of dsRNA to maximize the RNA efficiency for a target gene. For dsRNA delivery strategies, much recent research has focused on the applications of complexed or encapsulated dsRNA using various reagents, polymers, or peptides to enhance dsRNA stability and cellular uptake. Other dsRNA delivery strategies include genetic engineering of microbes (e.g. fungi, bacteria, and viruses) and plants to produce insect‐specific dsRNA. The ingestion of the dsRNA‐producing organisms or tissues will have lethal or detrimental effects on the target insect pests. This article also identifies obstacles to further developing RNAi for insect pest management and suggests future avenues of research that will maximize the potential for using RNAi for insect pest management. © 2021 Society of Chemical Industry

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Section: Strategies For Enhancing Rnai Efficiencymentioning

confidence: 99%

Section: Modification Of the Dsrna Sequencementioning

confidence: 99%

Section: Modification Of the Dsrna Sequencementioning

confidence: 99%

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Strategies for enhancing the efficiency of RNA interference in insects

Silver

Cooper

Zhu

2021

Pest Management Science

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“…Still, incremental improvements in the field continue to being made. For example, use of carbon quantum dots conjugated to dsRNA and additional knockdown of gut nucleases that are responsible for degradation of dsRNA have recently been explored (Kaur et al 2020 ). Looking ahead, a COVID-19-fueled explosion of RNA research, especially on the topic of RNA delivery, will undoubtfully have a profound impact on RNA use in the fields outside human medicine (Coccia 2021 ; Cheng et al 2020 ; Miao et al 2019 ; Pardi et al 2018 ).…”

Section: Whiteflies Endosymbionts and Ipm: The Terms Of A Challengementioning

confidence: 99%

Whitefly endosymbionts: IPM opportunity or tilting at windmills?

et al. 2021

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Whiteflies are sap-sucking insects responsible for high economic losses. They colonize hundreds of plant species and cause direct feeding damage and indirect damage through transmission of devastating viruses. Modern agriculture has seen a history of invasive whitefly species and populations that expand to novel regions, bringing along fierce viruses. Control efforts are hindered by fast virus transmission, insecticide-resistant populations, and a wide host range which permits large natural reservoirs for whiteflies. Augmentative biocontrol by parasitoids while effective in suppressing high population densities in greenhouses falls short when it comes to preventing virus transmission and is ineffective in the open field. A potential source of much needed novel control strategies lays within a diverse community of whitefly endosymbionts. The idea to exploit endosymbionts for whitefly control is as old as identification of these bacteria, yet it still has not come to fruition. We review where our knowledge stands on the aspects of whitefly endosymbiont evolution, biology, metabolism, multitrophic interactions, and population dynamics. We show how these insights are bringing us closer to the goal of better integrated pest management strategies. Combining most up to date understanding of whitefly–endosymbiont interactions and recent technological advances, we discuss possibilities of disrupting and manipulating whitefly endosymbionts, as well as using them for pest control.

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“…RNAi-based studies in whiteflies show significant knockdown of a wide set of gene targets, with reviews by Kaur et al (2020) [119], Luo et al (2017) [24] and others (e.g., and references therein: [120][121][122][123][124][125][126][127][128]. The earliest RNAi in whitefly, B. tabaci, used dsRNA's of actin, BtSnap and chickadee [129].…”

Section: Introductionmentioning

confidence: 99%

Optimizing Efficient RNAi-Mediated Control of Hemipteran Pests (Psyllids, Leafhoppers, Whitefly): Modified Pyrimidines in dsRNA Triggers

Hunter

Wintermantel

2021

Plants

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The advantages from exogenously applied RNAi biopesticides have yet to be realized in through commercialization due to inconsistent activity of the dsRNA trigger, and the activity level of RNAi suppression. This has prompted research on improving delivery methods for applying exogenous dsRNA into plants and insects for the management of pests and pathogens. Another aspect to improve RNAi activity is the incorporation of modified 2′-F pyrimidine nucleotides into the dsRNA trigger. Modified dsRNA incorporating 32–55% of the 2′-F- nucleotides produced improved RNAi activity that increased insect mortality by 12–35% greater than non-modified dsRNA triggers of the same sequence. These results were repeatable across multiple Hemiptera: the Asian citrus psyllid (Diaphorina citri, Liviidae); whitefly (Bemisia tabaci, Aleyroididae); and the glassy-winged sharpshooter (Homalodisca vitripennis, Cicadellidae). Studies using siRNA with modified 2′-F- pyrimidines in mammalian cells show they improved resistance to degradation from nucleases, plus result in greater RNAi activity, due to increase concentrations and improved binding affinity to the mRNA target. Successful RNAi biopesticides of the future will be able to increase RNAi repeatability in the field, by incorporating modifications of the dsRNA, such as 2′-F- pyrimidines, that will improve delivery after applied to fruit trees or crop plants, with increased activity after ingestion by insects. Costs of RNA modification have decreased significantly over the past few years such that biopesticides can now compete on pricing with commercial chemical products.

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Enhancing RNAi Efficiency to Decipher the Functional Response of Potential Genes in Bemisia tabaci AsiaII-1 (Gennadius) Through dsRNA Feeding Assays

Cited by 25 publications

References 101 publications

Strategies for enhancing the efficiency of RNA interference in insects

Strategies for enhancing the efficiency of RNA interference in insects

Whitefly endosymbionts: IPM opportunity or tilting at windmills?

Optimizing Efficient RNAi-Mediated Control of Hemipteran Pests (Psyllids, Leafhoppers, Whitefly): Modified Pyrimidines in dsRNA Triggers

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