Sustainable protein production through genetic engineering of cyanobacteria and use of atmospheric N2 gas

IF 4 2区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY Food and Energy Security Pub Date : 2024-03-18 DOI:10.1002/fes3.536
Taufiq Nawaz, Liping Gu, Shah Fahad, Shah Saud, Matthew Tom Harrison, Ruanbao Zhou
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Abstract

This review explores the potential of genetically engineering cyanobacteria with the aim of synthesizing high-value protein directly from atmospheric nitrogen. The article examines numerous techniques that may enhance protein synthesis in cyanobacteria, and discusses advantages, barriers, and opportunities for this strategy going forward. Genetic manipulation of cyanobacteria shows promise in sustainably raising protein production via reduced greenhouse gas emissions and lower dependence on synthetic fertilizers, but also potentially fewer environmental implications traditionally caused by conventional protein production methods. The article uncovers many difficulties in genetically modifying cyanobacteria for protein production. For example, genetically modified organisms (GMOs) have legal and regulatory ramifications that must be accounted for if ethical, moral and secure use of these technologies is to be ensured. Economic viability, too, must be evaluated, taking into consideration production costs, scalability, market demand and future market potential. We suggest that processing of cyanobacterial proteins in downstream stages need further development. Effective and economical methods are needed for protein extraction, purification, and formulation into commercially viable products. For successful application of cyanobacterial protein production at scale, such obstacles must be overcome. We conclude that genetic engineering of cyanobacteria for protein synthesis has a great deal of potential to offer a resource-effective and sustainable replacement for the synthesis of high-value proteins, so promoting a more sustainable and environmentally conscious future.

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通过蓝藻基因工程和利用大气中的 N2 气体实现可持续蛋白质生产
本综述探讨了蓝藻基因工程的潜力,目的是直接利用大气中的氮合成高价值蛋白质。文章探讨了可提高蓝藻蛋白质合成的多种技术,并讨论了这一战略的优势、障碍和未来机遇。蓝藻的遗传操作有望通过减少温室气体排放和降低对合成肥料的依赖来可持续地提高蛋白质产量,同时还可能减少传统蛋白质生产方法对环境造成的影响。文章揭示了转基因蓝藻生产蛋白质的许多困难。例如,转基因生物(GMOs)具有法律和监管方面的影响,如果要确保在伦理、道德和安全的前提下使用这些技术,就必须考虑到这些影响。此外,还必须对经济可行性进行评估,同时考虑生产成本、可扩展性、市场需求和未来市场潜力。我们建议,蓝藻蛋白质下游阶段的加工需要进一步开发。蛋白质的提取、纯化和配制成商业上可行的产品需要有效而经济的方法。要成功实现蓝藻蛋白质的规模化生产,必须克服这些障碍。我们的结论是,用于合成蛋白质的蓝藻基因工程具有巨大的潜力,可为高价值蛋白质的合成提供一种资源有效且可持续的替代方法,从而促进更具可持续性和环保意识的未来。
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来源期刊
Food and Energy Security
Food and Energy Security Energy-Renewable Energy, Sustainability and the Environment
CiteScore
9.30
自引率
4.00%
发文量
76
审稿时长
19 weeks
期刊介绍: Food and Energy Security seeks to publish high quality and high impact original research on agricultural crop and forest productivity to improve food and energy security. It actively seeks submissions from emerging countries with expanding agricultural research communities. Papers from China, other parts of Asia, India and South America are particularly welcome. The Editorial Board, headed by Editor-in-Chief Professor Martin Parry, is determined to make FES the leading publication in its sector and will be aiming for a top-ranking impact factor. Primary research articles should report hypothesis driven investigations that provide new insights into mechanisms and processes that determine productivity and properties for exploitation. Review articles are welcome but they must be critical in approach and provide particularly novel and far reaching insights. Food and Energy Security offers authors a forum for the discussion of the most important advances in this field and promotes an integrative approach of scientific disciplines. Papers must contribute substantially to the advancement of knowledge. Examples of areas covered in Food and Energy Security include: • Agronomy • Biotechnological Approaches • Breeding & Genetics • Climate Change • Quality and Composition • Food Crops and Bioenergy Feedstocks • Developmental, Physiology and Biochemistry • Functional Genomics • Molecular Biology • Pest and Disease Management • Post Harvest Biology • Soil Science • Systems Biology
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