AI Article Synopsis
- Biofertilizers using rhizobia can enhance sustainable agriculture, but their effectiveness is limited by high temperatures.
- A study involved screening mutant strains of USDA110 rhizobia, resulting in two mutants (M10 and M14) that showed varying growth at different temperatures, with M14 thriving at 36°C but slower at 32°C compared to the wild type.
- Genetic analysis revealed differences between the mutants, including point mutations and a significant inversion in M14, which downregulated certain pyruvate metabolism genes linked to its growth.
- Both M10 and M14 maintained their ability to symbiotically interact with soybeans, suggesting that genetic mutations can improve temperature tolerance without sacrificing beneficial functions.
Article Abstract
Biofertilizers are promising technologies for achieving sustainable agriculture. However, high-temperature tolerance is a constraint that limits the function of microbial inoculants. To characterize the genetic changes responsible for the high-temperature tolerance of rhizobia, mutant screening was performed using USDA110. The wild-type cells were mutagenized with carbon-ion irradiation, and two mutant strains, designated M10 and M14, were obtained after a three-day heat-shock treatment at 43 °C. In particular, M14 showed superior growth at 36 °C, at which temperature growth of the wild type was extremely slow, whereas M14 grew more slowly than the wild type at 32 °C. Whole-genome sequencing revealed that M10 had seven point mutations, whereas M14 had eight point mutations together with a 1.27 Mb inversion. RNA sequencing showed that the number of differentially expressed genes greatly exceeded the actual number of induced mutations. In M14, a gene cluster associated with pyruvate metabolism was markedly downregulated, probably because of disjunction with the promoter region after inversion, and was considered to be the cause of the slow growth rate of M14 at 32 °C. Notably, transmembrane proteins, including porins, were enriched among the genes upregulated in both M10 and M14. M14 was confirmed to retain symbiotic functions with soybeans. These results indicate that high-temperature tolerance was conferred by random mutagenesis while the symbiotic functions of rhizobia was maintained.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11434629 | PMC |
| http://dx.doi.org/10.3390/microorganisms12091819 | DOI Listing |
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