从多年生黑麦草中分离植物促生根际细菌的特性及新型抗菌基因簇的基因组挖掘。

Characterization of plant growth-promoting rhizobacteria from perennial ryegrass and genome mining of novel antimicrobial gene clusters.

机构信息

Department of Molecular Genetics, Groningen Biomolecular Sciences and Biotechnology Institute, University of Groningen, Groningen, the Netherlands.

College of Resources and Environmental Sciences; National Academy of Agriculture Green Development; Key Laboratory of Plant-Soil Interactions, Ministry of Education, China Agricultural University, Beijing, 100193, China.

出版信息

BMC Genomics. 2020 Feb 12;21(1):157. doi: 10.1186/s12864-020-6563-7.

DOI:10.1186/s12864-020-6563-7

PMID:32050906

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7017464/

Abstract

BACKGROUND

Plant growth-promoting rhizobacteria (PGPR) are good alternatives for chemical fertilizers and pesticides, which cause severe environmental problems worldwide. Even though many studies focus on PGPR, most of them are limited in plant-microbe interaction studies and neglect the pathogens affecting ruminants that consume plants. In this study, we expand the view to the food chain of grass-ruminant-human. We aimed to find biocontrol strains that can antagonize grass pathogens and mammalian pathogens originated from grass, thus protecting this food chain. Furthermore, we deeply mined into bacterial genomes for novel biosynthetic gene clusters (BGCs) that can contribute to biocontrol.

RESULTS

We screened 90 bacterial strains from the rhizosphere of healthy Dutch perennial ryegrass and characterized seven strains (B. subtilis subsp. subtilis MG27, B. velezensis MG33 and MG43, B. pumilus MG52 and MG84, B. altitudinis MG75, and B. laterosporus MG64) that showed a stimulatory effect on grass growth and pathogen antagonism on both phytopathogens and mammalian pathogens. Genome-mining of the seven strains discovered abundant BGCs, with some known, but also several potential novel ones. Further analysis revealed potential intact and novel BGCs, including two NRPSs, four NRPS-PKS hybrids, and five bacteriocins.

CONCLUSION

Abundant potential novel BGCs were discovered in functional protective isolates, especially in B. pumilus, B. altitudinis and Brevibacillus strains, indicating their great potential for the production of novel secondary metabolites. Our report serves as a basis to further identify and characterize these compounds and study their antagonistic effects against plant and mammalian pathogens.

摘要

背景

植物促生根际细菌（PGPR）是化肥和农药的良好替代品，这些化学物质在全球范围内造成了严重的环境问题。尽管许多研究都集中在 PGPR 上，但大多数研究都局限于植物-微生物相互作用的研究，而忽略了影响食用植物的反刍动物的病原体。在本研究中，我们将视角扩展到了草-反刍动物-人类食物链。我们旨在寻找能够拮抗草病原体和源自草的哺乳动物病原体的生防菌株，从而保护这条食物链。此外，我们深入挖掘细菌基因组，寻找可能有助于生防的新型生物合成基因簇（BGCs）。

结果

我们从健康的荷兰多年生黑麦草根际筛选了 90 株细菌，并对 7 株菌株（B. subtilis subsp. subtilis MG27、B. velezensis MG33 和 MG43、B. pumilus MG52 和 MG84、B. altitudinis MG75 和 B. laterosporus MG64）进行了表征，它们对草的生长有刺激作用，对植物病原体和哺乳动物病原体均具有拮抗作用。对这 7 株菌的基因组挖掘发现了丰富的 BGCs，其中一些是已知的，但也有一些是潜在的新型 BGCs。进一步分析揭示了潜在的完整和新型 BGCs，包括两个 NRPSs、四个 NRPS-PKS 杂合子和五个细菌素。

结论

在具有功能保护作用的分离物中发现了丰富的潜在新型 BGCs，特别是在 B. pumilus、B. altitudinis 和 Brevibacillus 菌株中，这表明它们具有产生新型次生代谢物的巨大潜力。我们的报告为进一步鉴定和表征这些化合物以及研究它们对植物和哺乳动物病原体的拮抗作用提供了基础。

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从多年生黑麦草中分离植物促生根际细菌的特性及新型抗菌基因簇的基因组挖掘。

Characterization of plant growth-promoting rhizobacteria from perennial ryegrass and genome mining of novel antimicrobial gene clusters.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

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