Contact Unmodified Antisense DNA Biotechnology (CUADb)-Based Oligonucleotide Insecticides and RNA Biocontrols: Molecular Bases and Potential in Plant Protection
Vol Oberemok, Kate Laikova, Jamin Ali, Ilyas Chachoua, Nikita Gal’chinsky

TL;DR
This paper reviews two nucleic acid-based technologies, CUADb and RNAi, for controlling insect pests in plants, highlighting their mechanisms and effectiveness against different insect species.
Contribution
The paper provides a comparative analysis of CUADb and RNAi technologies, emphasizing their distinct molecular mechanisms and species-specific efficacy in pest control.
Findings
CUADb disrupts rRNA biogenesis and is effective against Sternorrhyncha insects like aphids and mites.
RNAi degrades mRNA and is most effective against beetles from Tenebrionidae and Chrysomelidae families.
Both technologies show species-dependent efficacy and face challenges in adoption.
Abstract
Recent advances in molecular genetics, nucleic acid synthesis, and bioinformatics have provided novel opportunities for plants’ protection against insect pests. Currently, both DNA and RNA serve as active insecticidal ingredients, transcending their traditional role as carriers of genetic information. This novel activity is achieved through two fundamentally distinct mechanisms. The first one is DNA containment (DNAc), employing oligonucleotide insecticides based on contact unmodified antisense DNA biotechnology (CUADb), also known as ’genetic zipper’ technology. The second one is RNA interference (RNAi), employing RNA biocontrols based on double-stranded RNA (dsRNA) technology. The investigation of the molecular mechanism underlying the antisense activity of nucleic acids emerged in the early 1960s. While the antisense effects of RNA in gene silencing through interference (RNAi) was…
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Taxonomy
TopicsInsect Resistance and Genetics · CRISPR and Genetic Engineering · Insect-Plant Interactions and Control
