Unraveling Plant-Endophyte Interactions: An Omics Insight

Abstract

Plants are home to a wide assemblage of nonpathogenic microbial community belonging to different phyla, bacteria, fungi, actinomycetes and viruses, the collective term for which is called endophyte. These endosymbiotic individuals exhibit endophytism principally by assisting in vigor and endurance to host plant and protect them from biotic (pathogenic infections) and abiotic stress (water, heat, nutrient, salinity, and herbivory). In return, these endosymbionts receive energy in the form of carbon from the host tissue. Colonization of endophyte in the internal tissues has been reported almost in every plant examined so far either in intercellular or intracellular mode. The form of relationships established with the host plant may be mutualistic, symbiotic, commensalistic, and trophobiotic. These are either rhizospheric or phyllospheric in origin. To establish such mutualistic relationships between plants and endophytes, certain chemical signals play important role in inducing production of the enhanced amount of secondary metabolites in host plant tissues. These novel metabolites act as a very good source of stress relievers to host and protect from grazing animals. The renewed interest in endophyte is due to the biotechnological relevance of these signal molecules as these have been used as a good source for production of biochemical compounds of industrial importance more specifically in agriculture and medicine. Additionally, their capacity to decontaminate soil bacteria and bring in soil fertility invites huge application in phytoremediation. However, the physiology, biochemistry, and genetics behind such complex interactions, exchange of chemical signals, and their production (the endophytism of plan-microbiome) are still half-understood. With the advent of new efficient analytical technology in molecular biology and genomics, the basic information on the existing diversity, phylogenetic lineage, evolution, and ecophysiological information about these endophytes has been tried to understand. However, the functional gene expression, posttranslational modifications, and protein turnover under various environmental circumstances are only revealed through transcriptome and proteomics analysis. Soon, high-throughput next-generation sequencing technology has remarkably changed the whole scenario of solving the intricate issues entangled with the complexity underlying endophytism. Sequencing of the whole genome of individuals following cultivable method (genomics), multiple host plants and their microbiome (comparative genomics), non-cultivable methods (metagenomics and metatranscriptomics), and microarray has been proved to be potential approaches to unravel the truth behind the plant-endophyte interactions. The present script deals with scopes, prospects, and outcomes of use of these “omics tools” to understand the deep insight into the mechanism of plant host infestation, biological reason behind the mutualism between host and endophytes, exchange of biochemical compounds, enhanced production of secondary metabolite, and host plant ecology.