2022
DOI: 10.3390/ijms232415681
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Oligonucleotide Insecticides for Green Agriculture: Regulatory Role of Contact DNA in Plant–Insect Interactions

Abstract: Insects vastly outnumber us in terms of species and total biomass, and are among the most efficient and voracious consumers of plants on the planet. As a result, to preserve crops, one of the primary tasks in agriculture has always been the need to control and reduce the number of insect pests. The current use of chemical insecticides leads to the accumulation of xenobiotics in ecosystems and a decreased number of species in those ecosystems, including insects. Sustainable development of human society is impos… Show more

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Cited by 16 publications
(19 citation statements)
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“…Moreover, ITS regions of rRNA genes are moderately variable (Figure 4) in comparison with regions of 18S, 5.8S, and 28S rRNAs [35] allowing the creation of unique sequences of oligonucleotide insecticides. The length of an oligonucle-otide insecticide ∼ 11 nt makes it possible to create selective oligonucleotide insecticides with a uniqueness frequency equal to 1/4.19·10 6 and is obviously enough to be used in most agrocenoses [36].…”
Section: Resultsmentioning
confidence: 99%
“…Moreover, ITS regions of rRNA genes are moderately variable (Figure 4) in comparison with regions of 18S, 5.8S, and 28S rRNAs [35] allowing the creation of unique sequences of oligonucleotide insecticides. The length of an oligonucle-otide insecticide ∼ 11 nt makes it possible to create selective oligonucleotide insecticides with a uniqueness frequency equal to 1/4.19·10 6 and is obviously enough to be used in most agrocenoses [36].…”
Section: Resultsmentioning
confidence: 99%
“…Due to the ribose residues, double-stranded RNA fragments are more susceptible to hydrolysis in nature than DNA (Williams et al, 2017), and the large length of the fragment makes the selectivity of such insecticides less controllable and additionally forces one to calculate possible risks for non-target organisms (Roberts et al, 2015; Christiaens et al, 2021). For RNA biocontrols to be effective more different insect pest RNAs (Liu et al, 2020) can be chosen for degradation than with oligonucleotide insecticides (Oberemok et al, 2022). Both classes of new generation insecticides have cost-effective methods for their synthesis: liquid-phase phosphoramidite synthesis of DNA (Gal’chinsky et al, 2023) and cell-free production of RNA (Taning et al, 2020).…”
Section: Discussionmentioning
confidence: 99%
“…Due to the development of genetic resistance, this process never stops (Sparks et al, 2021; Mogilicherla and Roy, 2023) and it is possible to improve duration of operational life, selectivity in action, increased biodegradability, and low carbon footprint of current insecticides. Obviously, biomolecules are most likely to have such characteristics (Christiaens et al, 2020; Oberemok et al, 2022; Palli, 2023; Gal’chinsky et al, 2024). Technologies in plant protection evolved and created opportunity of development of insecticides based on natural polymers, DNA and RNA, having the characteristics which past generations of chemical insecticides have never had (Oberemok et al, 2018a; Rank and Koch, 2021; Oberemok et al, 2023; Koeppe et al, 2023).…”
Section: Introductionmentioning
confidence: 99%
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