Plants strategically recruit beneficial microbiomes throughout their developmental stages.
More...Plants strategically recruit beneficial microbiomes throughout their developmental stages. As a result, the plant-mediated soil microbiome legacies have long-lasting major impacts on subsequent crop seasons through plant-soil feedbacks. The ecological recruitment of microbiota from crop soil upon inoculation with a plant growth-promoting bacteria (PGPB) is still understudied. The effect of plant-associated soil microbiome in the performance of the PGPB Azospirillum brasilense strain Ab-V5, a commercial inoculant for maize and other crops, has been investigated in a dilution-to-extinction gradient. Previous results revealed a weak maize growth promoting effect of Ab-V5 inoculation in natural soil, contrasting the positive effects of diluted soil and irradiated soil. Although a large amount of metagenomic sequencing studies are available, modern bioinformatic approaches are necessary to fully understand the potential of plant growth promoting bacterial communities influenced by the inoculant strain Ab-V5. The characterization of putative metabolic contributions of metagenome-assembled genomes (MAGs) are useful for this purpose. In this study, MAGs from maize rhizosphere microbiomes are dissected and their putative phenotypic and metabolic potentials are discussed.
Less...| Accession | PRJNA1032131 |
| Data Type | Genome sequencing |
| Scope | Multispecies |
| Grants | - "Research grant" (Grant ID 19/04697-2, Fundação de Amparo a Pesquisa do Estado de Sao Paulo)
- "PhD scholarship" (Grant ID 2019/25720-2, Fundação de Amparo a Pesquisa do Estado de Sao Paulo)
|
| Submission | Registration date: 25-Oct-2023
University of Sao Paulo |
| Relevance | Environmental |
Project Data:
| Resource Name | Number
of Links |
|---|
| BioSample | 18 |
No public data is linked to this project. Any recently released data that cites this project will be linked to it within a few days.