Plasmids from the gut microbiome of cabbage root fly larvae encode SaxA that catalyses the conversion of the plant toxin 2-phenylethyl isothiocyanate

Summary Cabbage root fly larvae (Delia radicum) cause severe crop losses (≥ 50%) of rapeseed/ canola and cabbages used in the food and biofuel industries. These losses occur despite the fact that cabbages produce insecticidal toxins such as isothiocyanates. Here we describe the cabbage root fly larv...

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Published in:Environmental microbiology 2016-05, Vol.18 (5), p.1379-1390
Main Authors: Welte, Cornelia U., de Graaf, Rob M., van den Bosch, Tijs J. M., Op den Camp, Huub J. M., van Dam, Nicole M., Jetten, Mike S. M.
Format: Article
Language:English
Subjects:
Animals
Bacteria - classification
Bacteria - enzymology
Bacteria - genetics
Bacteria - isolation & purification
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biocatalysis
Brassica
Delia radicum
Diptera - growth & development
Diptera - microbiology
Escherichia coli
Escherichia coli - genetics
Gastrointestinal Microbiome - genetics
Genes, Bacterial
Isothiocyanates - metabolism
Larva - microbiology
Metagenome
Phylogenetics
Phylogeny
Plasmids
Plasmids - genetics
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description Summary Cabbage root fly larvae (Delia radicum) cause severe crop losses (≥ 50%) of rapeseed/ canola and cabbages used in the food and biofuel industries. These losses occur despite the fact that cabbages produce insecticidal toxins such as isothiocyanates. Here we describe the cabbage root fly larval gut microbiome as a source of isothiocyanate degrading enzymes. We sequenced the microbial gut community of the larvae and analysed phylogenetic markers and functional genes. We combined this with the isolation of several microbial strains representing the phylogenetic distribution of the metagenome. Eleven of those isolates were highly resistant towards 2‐phenylethyl isothiocyanate, a subset also metabolized 2‐phenylethyl isothiocyanate. Several plasmids appeared to be shared between those isolates that metabolized the toxin. One of the plasmids harboured a saxA gene that upon transformation gave resistance and enabled the degradation of 2‐phenylethyl isothiocyanate in Escherichia coli. Taken together, the results showed that the cabbage root fly larval gut microbiome is capable of isothiocyanate degradation, a characteristic that has not been observed before, and may help us understand and design new pest control strategies.
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Eleven of those isolates were highly resistant towards 2‐phenylethyl isothiocyanate, a subset also metabolized 2‐phenylethyl isothiocyanate. Several plasmids appeared to be shared between those isolates that metabolized the toxin. One of the plasmids harboured a saxA gene that upon transformation gave resistance and enabled the degradation of 2‐phenylethyl isothiocyanate in Escherichia coli. 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subjects Animals
Bacteria - classification
Bacteria - enzymology
Bacteria - genetics
Bacteria - isolation & purification
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biocatalysis
Brassica
Delia radicum
Diptera - growth & development
Diptera - microbiology
Escherichia coli
Escherichia coli - genetics
Gastrointestinal Microbiome - genetics
Genes, Bacterial
Isothiocyanates - metabolism
Larva - microbiology
Metagenome
Phylogenetics
Phylogeny
Plasmids
Plasmids - genetics
title Plasmids from the gut microbiome of cabbage root fly larvae encode SaxA that catalyses the conversion of the plant toxin 2-phenylethyl isothiocyanate
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