Exploration of genes encoding KEGG pathway enzymes in rhizospheric microbiome of the wild plant Abutilon fruticosum.

IF 3.5 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Aala A Abulfaraj, Ashwag Y Shami, Nahaa M Alotaibi, Maryam M Alomran, Abeer S Aloufi, Abeer Al-Andal, Nawwaf R AlHamdan, Fatimah M Alshehrei, Fatmah O Sefrji, Khloud H Alsaadi, Haneen W Abuauf, Sahar A Alshareef, Rewaa S Jalal
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Abstract

The operative mechanisms and advantageous synergies existing between the rhizobiome and the wild plant species Abutilon fruticosum were studied. Within the purview of this scientific study, the reservoir of genes in the rhizobiome, encoding the most highly enriched enzymes, was dominantly constituted by members of phylum Thaumarchaeota within the archaeal kingdom, phylum Proteobacteria within the bacterial kingdom, and the phylum Streptophyta within the eukaryotic kingdom. The ensemble of enzymes encoded through plant exudation exhibited affiliations with 15 crosstalking KEGG (Kyoto Encyclopaedia of Genes and Genomes) pathways. The ultimate goal underlying root exudation, as surmised from the present investigation, was the biosynthesis of saccharides, amino acids, and nucleic acids, which are imperative for the sustenance, propagation, or reproduction of microbial consortia. The symbiotic companionship existing between the wild plant and its associated rhizobiome amplifies the resilience of the microbial community against adverse abiotic stresses, achieved through the orchestration of ABA (abscisic acid) signaling and its cascading downstream effects. Emergent from the process of exudation are pivotal bioactive compounds including ATP, D-ribose, pyruvate, glucose, glutamine, and thiamine diphosphate. In conclusion, we hypothesize that future efforts to enhance the growth and productivity of commercially important crop plants under both favorable and unfavorable environmental conditions may focus on manipulating plant rhizobiomes.

Abstract Image

探索野生植物 Abutilon fruticosum 根瘤微生物组中编码 KEGG 通路酶的基因。
研究了根瘤生物群与野生植物 Abutilon fruticosum 之间的运行机制和优势协同作用。在这项科学研究的范围内,根瘤生物群中编码酶的基因库主要由古生界中的厚朴动物门、细菌界中的蛋白细菌门和真核生物界中的链格动物门的成员构成。植物渗出所编码的一系列酶与 15 条相互关联的 KEGG(《京都基因与基因组百科全书》)通路有关联。根据目前的调查推测,根系渗出的最终目的是糖类、氨基酸和核酸的生物合成,而这些物质对于微生物群落的生存、繁殖或再现至关重要。野生植物与其相关根瘤生物群之间的共生关系,通过 ABA(脱落酸)信号的协调及其级联下游效应,增强了微生物群落抵御不利非生物胁迫的能力。渗出过程中产生的关键生物活性化合物包括 ATP、D-核糖、丙酮酸、葡萄糖、谷氨酰胺和二磷酸硫胺。总之,我们推测,未来在有利和不利的环境条件下提高重要商业作物的生长和生产力的工作可能会集中在操纵植物根瘤上。
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来源期刊
AMB Express
AMB Express BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
7.20
自引率
2.70%
发文量
141
审稿时长
13 weeks
期刊介绍: AMB Express is a high quality journal that brings together research in the area of Applied and Industrial Microbiology with a particular interest in ''White Biotechnology'' and ''Red Biotechnology''. The emphasis is on processes employing microorganisms, eukaryotic cell cultures or enzymes for the biosynthesis, transformation and degradation of compounds. This includes fine and bulk chemicals, polymeric compounds and enzymes or other proteins. Downstream processes are also considered. Integrated processes combining biochemical and chemical processes are also published.
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