RRC ID 89139
著者 Wang Y, Moriyama M, Koga R, Oguchi K, Hosokawa T, Takai H, Shigenobu S, Nikoh N, Fukatsu T.
タイトル Tryptophanase disruption promotes insect-bacterium mutualism.
ジャーナル Nat Microbiol
Abstract Animal-microorganism symbioses are omnipresent, with both partners often gaining benefits as mutualists. A single mutation in the carbon catabolite repression system in Escherichia coli enables mutualism with the stinkbug Plautia stali. Here we find that this mutation is not present in natural symbioses. Given that the carbon catabolite repression pathway affects the expression of >500 downstream genes, we investigated their role in mutualisms. We find that disruption of a single gene, tnaA, encoding tryptophanase makes E. coli mutualistic to P. stali, resulting in the accumulation of tryptophan and the reduction of toxic indole. A survey of wild populations of P. stali and other stinkbug species revealed that their typical microbial symbionts, Pantoea, consistently lack the tnaA gene. Some Pantoea species such as Pantoea ananatis retain the tnaA gene and cannot establish symbiosis with P. stali, but tnaA-disrupted P. ananatis partially restored the symbiotic capability. When a natural Pantoea mutualist of P. stali was transformed with a functional tna operon, its symbiotic capability reduced significantly. Our finding suggests that tryptophanase disruption may have facilitated the evolution of gut bacterial mutualists in insects.
巻・号 11(3)
ページ 759-769
公開日 2026-3-1
DOI 10.1038/s41564-026-02264-z
PII 10.1038/s41564-026-02264-z
PMID 41760926
PMC PMC12962977
MeSH Animals Escherichia coli* / enzymology Escherichia coli* / genetics Escherichia coli* / physiology Escherichia coli Proteins / genetics Escherichia coli Proteins / metabolism Heteroptera* / microbiology Indoles / metabolism Mutation Operon Pantoea* / enzymology Pantoea* / genetics Pantoea* / physiology Symbiosis* / genetics Tryptophan / metabolism Tryptophanase* / genetics Tryptophanase* / metabolism
リソース情報
原核生物(大腸菌)