Polyhydroxyalkanoate (PHA) Biopolyesters - Emerging and Major Products of Industrial Biotechnology

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES
A. Mukherjee, M. Koller
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引用次数: 12

Abstract

Abstract Background: Industrial Biotechnology (“White Biotechnology”) is the large-scale production of materials and chemicals using renewable raw materials along with biocatalysts like enzymes derived from microorganisms or by using microorganisms themselves (“whole cell biocatalysis”). While the production of ethanol has existed for several millennia and can be considered a product of Industrial Biotechnology, the application of complex and engineered biocatalysts to produce industrial scale products with acceptable economics is only a few decades old. Bioethanol as fuel, lactic acid as food and PolyHydroxyAlkanoates (PHA) as a processible material are some examples of products derived from Industrial Biotechnology. Purpose and Scope: Industrial Biotechnology is the sector of biotechnology that holds the most promise in reducing our dependence on fossil fuels and mitigating environmental degradation caused by pollution, since all products that are made today from fossil carbon feedstocks could be manufactured using Industrial Biotechnology – renewable carbon feedstocks and biocatalysts. To match the economics of fossil-based bulk products, Industrial Biotechnology-based processes must be sufficiently robust. This aspect continues to evolve with increased technological capabilities to engineer biocatalysts (including microorganisms) and the decreasing relative price difference between renewable and fossil carbon feedstocks. While there have been major successes in manufacturing products from Industrial Biotechnology, challenges exist, although its promise is real. Here, PHA biopolymers are a class of product that is fulfilling this promise. Summary and Conclusion: The authors illustrate the benefits and challenges of Industrial Biotechnology, the circularity and sustainability of such processes, its role in reducing supply chain issues, and alleviating societal problems like poverty and hunger. With increasing awareness among the general public and policy makers of the dangers posed by climate change, pollution and persistent societal issues, Industrial Biotechnology holds the promise of solving these major problems and is poised for a transformative upswing in the manufacture of bulk chemicals and materials from renewable feedstocks and biocatalysts.
聚羟基烷酸酯(PHA)生物聚酯-新兴和工业生物技术的主要产品
摘要背景:工业生物技术(“白色生物技术”)是指使用可再生原材料以及微生物衍生的酶等生物催化剂或利用微生物本身大规模生产材料和化学品(“全细胞生物催化”)。虽然乙醇的生产已经存在了几千年,可以被认为是工业生物技术的产物,但应用复杂和工程化的生物催化剂生产具有可接受经济性的工业规模产品只有几十年的历史。作为燃料的生物乙醇、作为食品的乳酸和作为可加工材料的聚羟基烷酸酯(PHA)是源自工业生物技术的产品的一些例子。目的和范围:工业生物技术是在减少我们对化石燃料的依赖和减轻污染造成的环境退化方面最有希望的生物技术部门,因为今天所有由化石碳原料制成的产品都可以使用工业生物技术制造——可再生碳原料和生物催化剂。为了与基于化石的大宗产品的经济性相匹配,基于工业生物技术的工艺必须足够稳健。随着设计生物催化剂(包括微生物)的技术能力的提高以及可再生能源和化石碳原料之间相对价格差异的缩小,这一方面不断发展。虽然工业生物技术在制造产品方面取得了重大成功,但挑战仍然存在,尽管它的前景是真实的。在这里,PHA生物聚合物是实现这一承诺的一类产品。摘要和结论:作者阐述了工业生物技术的好处和挑战,这些过程的循环性和可持续性,它在减少供应链问题和缓解贫困和饥饿等社会问题方面的作用。随着公众和政策制定者对气候变化、污染和持续存在的社会问题所带来的危险的认识不断提高,工业生物技术有望解决这些重大问题,并有望在可再生原料和生物催化剂的大宗化学品和材料制造方面取得变革性进展。
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来源期刊
The EuroBiotech Journal
The EuroBiotech Journal Agricultural and Biological Sciences-Food Science
CiteScore
3.60
自引率
0.00%
发文量
17
审稿时长
10 weeks
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