TY - JOUR T1 - Carcinogenic Pesticide Control <em>via</em> Hijacking Endosymbiosis; The Paradigm of DSB-A from <em>Wolbachia pipientis</em> for the Management of <em>Otiorhynchus singularis</em> JF - In Vivo JO - In Vivo SP - 1051 LP - 1062 DO - 10.21873/invivo.11346 VL - 32 IS - 5 AU - THOMAS KOSTAROPOULOS AU - LOUIS PAPAGEORGIOU AU - SPYRIDON CHAMPERIS TSANIRAS AU - DIMITRIOS VLACHAKIS AU - ELIAS ELIOPOULOS Y1 - 2018/09/01 UR - http://iv.iiarjournals.org/content/32/5/1051.abstract N2 - Background/Aim: Pesticides have little, if any specificity, to the pathogen they target in most cases. Wide spectrum toxic chemicals are being used to remove pestcides and salvage crops and economies linked to agriculture. The burden on the environment, public health and economy is huge. Traditional pestcide control is based on administering heavy loads of highly toxic compounds and elements that essentially strip all life from the field. Those chemicals are a leading cause of increased cancer related deaths in countryside. Herein, the Trojan horse of endosymbiosis was used, in an effort to control pests using high specificity compounds in reduced quantities. Materials and Methods: Our pipeline has been applied on the case of Otiorhynchus singularis, which is a very widespread pest, whose impact is devastating on a repertoire of crops. To date, there is no specific pesticide nor agent to control it. The deployed strategy involves the inhibition of the key DSB-A enzyme of its endosymbiotic Wolbachia pipientis bacterial strain. Results: Our methodology, provides the means to design, test and identify highly specific pestcide control substances that minimize the impact of toxic chemicals on health, economy and the environment. Conclusion: All in all, in this study a radical computer-based pipeline is proposed that could be adopted under many other similar scenarios and pave the way for precision agriculture via optimized pest control. ER -