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Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits
Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits
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Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits
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Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits
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Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits
Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits
Journal Article

Biotin provisioning by horizontally transferred genes from bacteria confers animal fitness benefits

2020
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Overview
Insect symbionts are widespread in nature and lateral gene transfer is prevalent in insect symbiosis. However, the function of horizontally transferred genes (HTGs) in insect symbiosis remains speculative, including the mechanism that enables insects to feed on plant phloem deficient in B vitamins. Previously, we found there is redundancy in biotin synthesis pathways from both whitefly Bemisia tabaci and symbiotic Hamiltonella due to the presence of whitefly HTGs. Here, we demonstrate that elimination of Hamiltonella decreased biotin levels but elevated the expression of horizontally transferred biotin genes in whiteflies. HTGs proteins exhibit specific expression patterns in specialized insect cells called bacteriocytes housing symbionts. Complementation with whitefly HTGs rescued E. coli biotin gene knockout mutants. Furthermore, silencing whitefly HTGs in Hamiltonella -infected whiteflies reduced biotin levels and hindered adult survival and fecundity, which was partially rescued by biotin supplementation. Each of horizontally transferred biotin genes are conserved in various laboratory cultures and species of whiteflies with geographically diverse distributions, which shares an evolutionary origin. We provide the first experimental evidence that biotin synthesized through acquired HTGs is important in whiteflies and may be as well in other animals. Our findings suggest that B vitamin provisioning in animal-microbe symbiosis frequently evolved from bacterial symbionts to animal hosts through horizontal gene transfer events. This study will also shed light on how the animal genomes evolve through functional transfer of genes with bacterial origin in the wider contexts of microbial ecology.