Multiple strategies for the development of multienzyme complex for one-pot reactions

The main intention in the modern era is to make life and activities on earth more comfortable by adding necessary products through biological machinery. Millions of tons of biological raw materials and lignocellulosic biomass are wasted by burning each year without providing benefits to living organ...

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Bibliographic Details
Published in:Environmental science and pollution research international 2023-05, Vol.30 (24), p.64904-64931
Main Authors: Farhan, Bahzad Ahmad, Zhihe, Li, Ali, Shehbaz, Shah, Tawaf Ali, Zhiyu, Li, Zhang, Andong, Javed, Sadia, Asad, Muhammad
Format: Article
Language:English
Subjects:
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Biofuels
Biomass
Biomass burning
Biomaterials
Biomedical materials
Biopolymers
Biosensors
Climate change
Development strategies
Earth and Environmental Science
Ecotoxicology
Energy resources
Energy sources
Environment
Environmental Chemistry
Environmental Health
Environmental science
Enzymes
Food conversion
Food industry
Genetic Engineering
Global warming
Hydrolysis
Immobilization
Lignin - metabolism
Lignocellulose
Metabolic engineering
Multienzyme complexes
Natural environment
Raw materials
Renewable energy
Renewable resources
Review Article
Waste Water Technology
Water Management
Water Pollution Control
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Summary:The main intention in the modern era is to make life and activities on earth more comfortable by adding necessary products through biological machinery. Millions of tons of biological raw materials and lignocellulosic biomass are wasted by burning each year without providing benefits to living organisms. Instead of being the cause of disturbing the natural environment by increasing global warming and pollutants worldwide, now, it is the need of the hour to develop an advanced strategy to utilize these biological raw materials to produce renewable energy resources to meet the energy crisis. The review presents the idea of multiple enzymes in one step to hydrolyze complex biomaterials into useful products. The paper discusses how multiple enzymes are arranged in a cascade for complete hydrolysis of raw material in one-pot to prevent multistep, time consuming, and expensive methods. Furthermore, there was the immobilization of multiple enzymes in a cascade system with in vitro and in vivo conditions for reusability of enzymes. The role of genetic engineering, metabolic engineering, and random mutation techniques is described for the development of multiple enzyme cascades. Techniques that are involved in the improvement of native strain to recombinant strain for the enhancement of hydrolytic capacity were used. The preparative steps, before enzymatic hydrolysis like acid, and base treatment methods are more effective for improving the hydrolysis of biomass by multiple enzymes in a one-pot system. Finally, the applications of one-pot multienzyme complexes in biofuel production from lignocellulosic biomass, biosensor production, medicine, food industry, and the conversion of biopolymers into useful products are described.
ISSN:1614-7499
0944-1344
1614-7499
DOI:10.1007/s11356-023-27098-8