Developments in Fatty Acid-Derived Insect Pheromone Production Using Engineered Yeasts

Abstract: The use of traditional chemical insecticides for pest control often leads to environmental pollution and a decrease in biodiversity. Recently, insect sex pheromones were applied for sustainable biocontrol of pests in fields, due to their limited adverse impacts on biodiversity and food safety compared to that of other conventional insecticides. However, the structures of insect pheromones are complex, and their chemical synthesis is not commercially feasible. As yeasts have been widely used for fatty acid-deri… Show more

“…68 In mosquitoes, female sex pheromones are typically derived from fatty acids, which are a major regulator in an insect's mating behavior. 69 In a study on locusts and S. litura, silencing of the targeted gene of FAS through RNA interference resulted in lethality during ecdysis or after molting. 70,71 We obtained similar results (Fig.…”

The impact of carbon NPs on the accumulation of storage proteins and the generation advancement of the polyphagous insect pest tobacco cutworm Spodoptera litura (Fabricius)

“…68 In mosquitoes, female sex pheromones are typically derived from fatty acids, which are a major regulator in an insect's mating behavior. 69 In a study on locusts and S. litura, silencing of the targeted gene of FAS through RNA interference resulted in lethality during ecdysis or after molting. 70,71 We obtained similar results (Fig.…”

The impact of carbon NPs on the accumulation of storage proteins and the generation advancement of the polyphagous insect pest tobacco cutworm Spodoptera litura (Fabricius)

“…Designing and building synthetic microbiota with wild‐type probiotics, and optimizing fermentation parameters, including pH value, temperature, and incubation time, could improve the yield of bioactive natural products generated by CHM fermentation [ 141 ] (Figure 4D ). Production of terpenoids, lipids and other plant natural products by engineered yeasts has been achieved [ 142 , 143 , 144 , 145 ], and synthetic biology could design and reprogram of microorganisms to de novo produce various bioactive natural products [ 139 , 146 , 147 , 148 , 149 , 150 ]. In the future, production of CHM bioactive natural products by synthetic biology technology might be an alternative strategy for probiotic CHM fermentation, and the products can be further applied in foods, animal feed, and other industries [ 151 ].…”

Research advances in probiotic fermentation of Chinese herbal medicines

A point of view on human fat olfaction — do fatty derivatives serve as cues for awareness of dietary fats?