BMC Zoology (Jun 2021)
Elucidation of the whole carotenoid biosynthetic pathway of aphids at the gene level and arthropodal food chain involving aphids and the red dragonfly
Abstract
Abstract Background Aphids can be positioned as robust pest insects in farming and as ones of the model organisms for arthropods in molecular biology. Carotenoids are pigments that protect organisms from photooxidative damage caused by excessive light. Aphids were shown to possess genes of fungal origin for carotenoid biosynthesis, whereas a little knowledge was available about the functions of the genes and the biosynthetic pathway. Even carotenoid species contained in aphids were not enough understood. Main purpose of this study is to clarify these insufficient findings. Results The whole carotenoid biosynthetic pathway of the pea aphid (Acyrthosiphon pisum) was elucidated at the gene level, through comprehensive functional analysis of its carotenogenic genes, using Escherichia coli that synthesized carotenoid substrates, along with structural and quantitative analysis of carotenoids from various aphid species. Four genes were needed to synthesize all carotenoids accumulated in aphids from geranylgeranyl diphosphate. The tor gene mediated desaturation reaction from phytoene to 3,4-didehydrolycopene. It was revealed that a gene designated ApCrtYB3, which was considered to have functionally evolved in aphids, can convert lycopene into uncommon carotenoids with the γ-ring such as (6′S)-β,γ-carotene and γ,γ-carotene. We further demonstrated that the atypical carotenoids work as ecological indicators for estimating the food chain from aphids to predatory arthropods, and showed that aphids contributed with significant levels to the food chain from insect herbivores to several predatory arthropods, i.e., the red dragonfly (Sympetrum frequens; adults), seven-spotted ladybird (Coccinella septempunctata), and two spiders, Oxyopes sertatus and Nephila clavata. Gut microflora of the dragonfly (mature adults) was also found to include endosymbiotic bacteria such as Serratia symbiotica specific to the black bean aphid (Aphis fabae). Conclusions We revealed the whole carotenoid biosynthetic pathway of aphids, including functional identification of the corresponding genes. Subsequently, we showed that arthropodal food chain can be estimated using the uncommon carotenoids of aphids as ecological indicators. This result indicated that aphids made significant contributions to the food chain of several predatory arthropods including the red-dragonfly adults. Aphids are likely to be positioned as an important “phytochemicals” source for some predatory insects and arachnids, which are often active under bright sunlight.
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