Article Synopsis
- Wallr. is a parasitic weed that affects sunflowers by extracting nutrients, leading to reduced crop yields, and varying levels of parasitism suggest different underlying factors.
- Researchers examined the soil microbiome of sunflowers with varying degrees of parasitism, discovering significant microbial structure differences linked to infection severity, with a notable increase in certain bacteria during severe cases.
- The study identified strain HX79, which enhances seed germination and growth through its metabolite Cyclo(Pro-Val), while strain HX1 was found to inhibit the growth of the parasite, highlighting the potential for using soil microbes in controlling this weed.
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Article Abstract
Wallr. is a holoparasite weed that extracts water and nutrients from its host the sunflower, thereby causing yield reductions and quality losses. However, the number of parasites in the same farmland is distinctly different. The roots of some hosts have been heavily parasitized, while others have not been parasitized. What are the factors contributing to this phenomenon? Is it possible that sunflower interroot microorganisms are playing a regulatory role in this phenomenon? The role of the microbial community in this remains unclear. In this study, we investigated the rhizosphere soil microbiome for sunflowers with different degrees of parasitism, that is, healthy, light infection, moderate infection, and severe infection on the sunflower roots. The microbial structures differed significantly according to the degree of parasitism, where Xanthomonadaceae was enriched in severe infections. Metagenomic analyses revealed that amino acid, carbohydrate, energy, and lipid metabolism were increased in the rhizosphere soils of severely infected sunflowers, which were attributed to the proliferation of . (HX79) was isolated and its capacity to promote seed germination and increase the germ tube length was confirmed by germination and pot experiments. Cyclo(Pro-Val), an active metabolite of strain HX79, was identified and metabolomic and molecular docking approaches confirmed it was responsible for promoting seed germination and growth. And we found that HX1 inhibited the growth of in the host rhizosphere soil. Our findings clarify the role of rhizosphere microbiota in regulating the parasite to possibly facilitate the development of a new weed suppression strategy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10989955 | PMC |
| http://dx.doi.org/10.1002/imt2.31 | DOI Listing |
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