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Cell-Free Systems: Platform for Sustainable Commercial Biomanufacturing of Biochemicals

Cell-Free Systems: Platform for Sustainable Commercial Biomanufacturing of Biochemicals

Humaira1, Afsana Huseynova Anvar2, Shaukat Ali3, Marcelo Franco4, Muhammad Irfan1*

1Department of Biotechnology, University of Sargodha, Sargodha Pakistan
2Department of Molecular Biology and Biotechnology, Baku State University, Baku, Azerbaijan
3Department of Zoology, Government College University Lahore Pakistan
4Department of Exact Sciences, State University of Santa Cruz (UESC), Ilhéus, 45662-900 Brazil
 
Corresponding Author:  Muhammad Irfan

ABSTRACT

Increasing material consumption and associated environmental concerns demand a shift from current fossils-based commercial manufacturing practices to sustainable, ecofriendly production systems. Extensive metabolic engineering practices incorporating living systems for commercial manufacturing of cost-effective value-added products and biochemical from sustainable feed-stock show limited success as desired higher production rates run counter to life-sustaining metabolic activities. To address these challenges, cell-free approaches developed as promising platform to proceed towards sustainable bio-manufacturing through the development of self-sustaining, constantly operating systems employing renewable biomass to yield higher concentrations and productivity of extended-range of products. To-date established cell-free systems including extract-based and purified enzyme-based cell-free technologies have been widely exploited for producing commercially valuable biopolymers and biochemicals such as building-block chemical, biofuels, bioplastic and value-added products. However, implementation of these cell-free systems at industrial production scale requires key considerations of sustainable carbon source, co-factors and energy regeneration pathways and biocatalyst engineering and recycling strategies to proceed towards sustainable production. At present, extensive research is required to address challenges of high cost associated co-factor supply and optimization of protocols to exploit full-potential of these cell-free technologies. 
 
Novelty Statement | This review article describe the potential utilization of cell free systems for the produc-tion of valuable chemicals through technological interventions which is the current demand of the society.

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Pakistan Journal of Zoology

December

Pakistan J. Zool., Vol. 56, Iss. 6, pp. 2501-3000

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