RRC ID 89158
著者 Ishikawa K, Yamaguchi S, Tsukaoka T, Tsunoda M, Furuta K, Kaito C.
タイトル Sulphur-Acquisition Pathways for Cysteine Synthesis Confer a Fitness Advantage to Bacteria in Plant Extracts.
ジャーナル Environ Microbiol
Abstract Bacteria and plants are closely associated with human society, in fields such as agriculture, public health, the food industry, and waste disposal. Bacteria have evolved nutrient-utilisation systems adapted to achieve the most efficient growth in their major habitats. However, empirical evidence to support the significance of bacterial nutrient utilisation in adaptation to plants is limited. Therefore, we investigated the genetic and nutritional factors required for bacterial growth in plant extracts by screening an Escherichia coli gene-knockout library in vegetable-based medium. Mutants lacking genes involved in sulphur assimilation, whereby sulphur is transferred from sulphate to cysteine, exhibited negligible growth in vegetable-based medium or plant extracts, owing to the low cysteine levels. The reverse transsulphuration pathway from methionine, another pathway for donating sulphur to cysteine, occurring in bacteria such as Bacillus subtilis, also played an important role in growth in plant extracts. These two sulphur-assimilation pathways were more frequently observed in plant-associated than in animal-associated bacteria. Sulphur-acquisition pathways for cysteine synthesis thus play a key role in bacterial growth in plant-derived environments such as plant residues and plant exudates.
巻・号 27(6)
ページ e70126
公開日 2025-6-1
DOI 10.1111/1462-2920.70126
PMID 40528555
PMC PMC12174637
MeSH Bacillus subtilis* / genetics Bacillus subtilis* / growth & development Bacillus subtilis* / metabolism Cysteine* / biosynthesis Escherichia coli* / genetics Escherichia coli* / growth & development Escherichia coli* / metabolism Methionine / metabolism Plant Extracts* / metabolism Sulfur* / metabolism
リソース情報
原核生物(大腸菌)