Biotechnological approaches: Degradation and valorization of waste plastic to promote the circular economy

Sridevi Veluru , Ramakrishna Seeram
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Abstract

The practical application of plastics is as indispensable as it is problematic regarding disposal. Plastics present significant opportunities in the context of circular usage and recycling. A circular economy dictates the utilization of every side stream to minimize waste. Current waste management techniques are insufficient in reducing plastic waste entering landfills, wastewater treatment systems, and the environment. Under these circumstances, plastic biodegradation has emerged as a viable and environmentally responsible approach to plastic pollution. Methods are needed for the natural degradation of plastics using microbes that can utilize plastics as their sole carbon source. Studies to enhance the catalytic activity of plastic-degrading enzymes through protein engineering approaches are a relatively new field of research. Enzymatic degradation for product creation represents a purely biological plastic recycling method in a sustainable economy. This review builds insights derived from previous studies and provides a brief overview of plastic degradation using enzymes, improvements in plastic-degrading enzyme efficiency, and stabilization via various protein engineering strategies. In addition, recent advances in plastic waste valorization technology based on systems metabolic engineering and future directions are discussed.

生物技术方法:废弃塑料的降解和增值,促进循环经济
塑料的实际应用是不可或缺的,但在处置方面也存在问题。在循环使用和回收利用方面,塑料带来了重大机遇。循环经济要求利用各种副产品,最大限度地减少废物。目前的废物管理技术不足以减少进入垃圾填埋场、废水处理系统和环境的塑料废物。在这种情况下,塑料生物降解成为一种可行的、对环境负责的解决塑料污染的方法。我们需要利用能将塑料作为唯一碳源的微生物来实现塑料的自然降解。通过蛋白质工程方法提高塑料降解酶催化活性的研究是一个相对较新的研究领域。通过酶降解来创造产品是可持续经济中的一种纯生物塑料回收方法。本综述以先前的研究为基础,简要概述了利用酶降解塑料、提高塑料降解酶的效率以及通过各种蛋白质工程策略稳定塑料的方法。此外,还讨论了基于系统代谢工程的塑料废物价值化技术的最新进展和未来方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
3.60
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