Microbial Genes of Agricultural Importance in Maize Rhizosphere Unveiled Through Shotgun Metagenomics

Genes possessed by microbes in the rhizosphere influence the metabolic activities that occur in this zone. Although the maize rhizosphere has been reported to be a hotspot of genes, these genes remain under-investigated. Hence, this study aimed at identifying putative microbial genes with plant bene...

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Veröffentlicht in:Spanish journal of soil science 2022-07, Vol.12 (1)
Hauptverfasser: Omotayo, Oluwadara Pelumi, Igiehon, Ozede Nicholas, Babalola, Olubukola Oluranti
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Sprache:eng
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Zusammenfassung:Genes possessed by microbes in the rhizosphere influence the metabolic activities that occur in this zone. Although the maize rhizosphere has been reported to be a hotspot of genes, these genes remain under-investigated. Hence, this study aimed at identifying putative microbial genes with plant beneficial functions in the underexplored maize rhizosphere microbiome using a shotgun metagenomics approach. Sampling was done at the flowering stage of the maize plants and both the rhizosphere and bulk soils were collected in triplicates. The metagenomes of the examined rhizosphere and bulk soils revealed genes involved in carbon fixation, nitrogen fixation, iron acquisition, heat and cold shock, phosphorus solubilization and utilization, sulfur cycling, and siderophore production. The beta diversity analysis showed significant variations ( p < 0.05) in these genes across the examined rhizosphere and bulk soils which was further confirmed by the distinct separations between the samples as seen on the principal coordinate analysis (PCoA) plot. Contrarily, no significant difference was observed in diversity within the habitats ( p = 0.99). The predominance of significant genes of agricultural importance such as the nifH , nifA, groES, and cspA in the rhizosphere metagenomes signifies that this region is endowed with beneficial organisms with potential for improving plant growth, mitigating stress, and reducing the effect of extreme temperatures, which can be optimized in developing biofertilizers. Therefore, the development of strategies that will help in cultivating these organisms, which are mostly unculturable, is encouraged. This would make them readily available for use as bio-inoculants and in other biotechnological applications.
ISSN:2253-6574
2253-6574
DOI:10.3389/sjss.2022.10427