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The silkworm (Bombyx mori) gut microbiota is involved in metabolic detoxification by glucosylation of plant toxins

Shuang-Zhi Yuan, Yongjun Sun, Wenqiang Chang, Jiaozhen Zhang, Jifa Sang, Jiachun Zhao, Minghui Song, Yanan Qiao, Chun‐yang Zhang, Mingzhu Zhu, Ya‐Jie Tang, Hong‐Xiang Lou

2023Communications Biology31 citationsDOIOpen Access PDF

Abstract

Herbivores have evolved the ability to detoxify feed components through different mechanisms. The oligophagous silkworm feeds on Cudrania tricuspidata leaves (CTLs) instead of mulberry leaves for the purpose of producing special, high-quality silk. However, CTL-fed silkworms are found to have smaller bodies, slower growth and lower silk production than those fed mulberry leaves. Here, we show that the high content of prenylated isoflavones (PIFs) that occurred in CTLs is converted into glycosylated derivatives (GPIFs) in silkworm faeces through the silkworm gut microbiota, and this biotransformation is the key process in PIFs detoxification because GPIFs are found to be much less toxic, as revealed both in vitro and in vivo. Additionally, adding Bacillus subtilis as a probiotic to remodel the gut microbiota could beneficially promote silkworm growth and development. Consequently, this study provides meaningful guidance for silk production by improving the adaptability of CTL-fed silkworms.

Topics & Concepts

Bombyx moriBiologyProbioticSericultureDetoxification (alternative medicine)Bacillus subtilisGut floraFermentationBombycidaeBiotransformationMicrobiologyFood scienceBiochemistryBacteriaEnzymePathologyGeneticsAlternative medicineMedicineGeneInsect Utilization and EffectsAntimicrobial Peptides and ActivitiesGenomics, phytochemicals, and oxidative stress
The silkworm (Bombyx mori) gut microbiota is involved in metabolic detoxification by glucosylation of plant toxins | Litcius