Abstract
Catalysis is a process carried out in the presence of a heterogenous catalyst for accelerating the rate of a chemical reaction. It plays a pivotal role in transition from take, make, and dispose technology to sustainable technology via chemo- and biocatalytic processes. However, chemocatalyzed reactions are usually associated with copious amounts of perilous/hazardous environmental footprints. Therefore, whole-cell biotransformations or enzyme cocktails serve as cleaner biocatalytic alternatives in replacing the classical chemical procedures. These benchmark bioconversion reactions serve as important key technology in achieving the goals of green chemistry by eliminating waste generation at source. For this, nature has always been a driving force in fuelling natural product discovery and related applications. The fungal endophytic community, in particular, has undergone co-evolution with their host plant and has emerged as a powerful tool of genetic diversity. They can serve as a treasure trove of biocatalysts, catalyzing organic transformations of a wide range of substances into enantiopure compounds with biotechnological relevance. Additionally, the biocatalytic potential of endophytic fungi as whole-intact organisms/isolated enzyme systems has been greatly expanded beyond the existing boundaries with the advancement in high-throughput screening, molecular biology techniques, metabolic engineering, and protein engineering. Therefore, the present review illustrates the promising applications of endophytic fungi as biocatalysts for the synthesis of new structural analogs and pharmaceutical intermediates and refinement of existing proteins for novel chemistries.
Highlights
The transformation process is defined as the conversion of exogenous substances into new chemical moieties
Chemocatalysis is defined as the Endophytic Fungi Mediate Biocatalysis organic reaction that operates under extreme conditions, utilizes low atom economy, and generates toxic and hazardous waste stream, thereby impacting the environment adversely (Kim and Li, 2020)
Some applications of biotransformation procedures mediated by fungal endophytes vis-a-vis synthesis of novel structural analogs and active pharmaceutical ingredients, production of highvalue products in aroma and perfume industry, enhancing agricultural productivity, bioconversion of monoacylglycerols, and biodegradation of hydrocarbons have been presented in the subsequent section
Summary
The transformation process is defined as the conversion of exogenous substances into new chemical moieties. The biotransformation reactions mediated by endophytic fungi/isolated enzyme systems are gaining tremendous attention among process chemists for sustainable pharmaceutical development (Figure 2). The present review highlights the multifaceted potential of endophytic fungi-assisted biotransformations in the bioremediation of hydrocarbons, toxic heavy metals, decolorization of dyes, and detoxification of xenobiotic pollutants, besides the enzymatic and scalable transformation of non-selective and diverse chemical substrates into active pharmaceutical ingredients.
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