Combining in silico and in vitro approaches to understand the involvement of methylerythritol 4-phosphate and shikimate pathways in Agrobacterium tumefaciens for enhanced coenzyme Q10 production.

AIMS: To perform an integrated comparative analysis of metabolic pathway to understand coenzyme Q10 (CoQ10) production in Agrobacterium tumefaciens. METHODS AND RESULTS: Comparative analysis of the CoQ10 metabolic pathway in 10 organisms using a genome to KEGG orthology program (G2KO) and the KEGG database elucidated the completeness of the production pathway in A. tumefaciens. The specific roles of the key precursors and the enzymes in the metabolic network were subsequently confirmed using pathway inhibitors and enhancers. While the use of fosmidomycin and glyphosate was found to inhibit CoQ10 production by 54.54% to 99%, the supplementation of polyprenyl pyrophosphate of the methylerythritol 4-phosphate pathway and 4-hydroxybenzoate precursor of the shikimate pathway did increse the production of CoQ10 by 2.3-fold. CONCLUSIONS: The present study provides a comprehensive understanding of the CoQ10 biosynthetic pathway in A. tumefaciens, which would assist rational metabolic engineering strategies for augmenting CoQ10 biosynthesis.

Valorization of wastewater to recover value-added products: A comprehensive insight and perspective on different technologies.

In recent years, due to rapid globalization and urbanization, the demand for fuels, energy, water and nutrients has been continuously increasing. To meet the future need of the society, wastewater is a prominent and emerging source for resource recovery. It provides an opportunity to recover valuable resources in the form of energy, fertilizers, electricity, nutrients and other products. The aim of this review is to elaborate the scientific literature on the valorization of wastewater using wide range of treatment technologies and reduce the existing knowledge gap in the field of resource recovery and water reuse. Several versatile, resilient environmental techniques/technologies such as ion exchange, bioelectrochemical, adsorption, electrodialysis, solvent extraction, etc. are employed for the extraction of value-added products from waste matrices. Since the last two decades, valuable resources such as polyhydroxyalkanoate (PHA), matrix or polymers, cellulosic fibers, syngas, biodiesel, electricity, nitrogen, phosphorus, sulfur, enzymes and a wide range of platform chemicals have been recovered from wastewater. In this review, the aspects related to the persisting global water issues, the technologies used for the recovery of different products and/or by-products, economic sustainability of the technologies and the challenges encountered during the valorization of wastewater are discussed comprehensively.