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1.
Non-model microorganisms have been increasingly explored as microbial cell factories for production of chemicals, fuels, and materials owing to their unique physiology and metabolic capabilities. However, these microorganisms often lack facile genetic tools for strain development, which hinders their adoption as production hosts. In this review, we describe recent advances in domestication of non-model microorganisms, including bacteria, actinobacteria, cyanobacteria, yeast, and fungi, with a focus on the development of genetic tools. In addition, we highlight some successful applications of non-model microorganisms as microbial cell factories. 相似文献
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合成生物学技术的快速发展极大提升了微生物细胞工厂的构建能力,为化学品的绿色高效生产提供了重要策略。然而,微生物细胞难以耐受高强度工业环境、抗逆性差,成为了限制其生产性能的关键因素。适应性进化是一种人为施加定向选择压力,使微生物经过长期或短期驯化,获得适应特定环境的表型或生理性能的重要方法。近年来,随着微流控、生物传感器、组学分析等技术的发展,适应性进化为提升微生物细胞在工业环境下的生产性能奠定了基础。本文论述了适应性进化的关键技术及在提高微生物细胞工厂环境耐受性和生产效率方面的重要应用,并展望了适应性进化实现微生物细胞工厂在工业环境下高效运行的重要前景。 相似文献
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The incentive for developing microbial cell factories for production of fuels and chemicals comes from the ability of microbes to deliver these valuable compounds at a reduced cost and with a smaller environmental impact compared to the analogous chemical synthesis. Another crucial advantage of microbes is their great biological diversity, which offers a much larger “catalog” of molecules than the one obtainable by chemical synthesis. Adaptation to different environments is one of the important drives behind microbial diversity. We argue that the Red Sea, which is a rather unique marine niche, represents a remarkable source of biodiversity that can be geared towards economical and sustainable bioproduction processes in the local area and can be competitive in the international bio-based economy. Recent bioprospecting studies, conducted by the King Abdullah University of Science and Technology, have established important leads on the Red Sea biological potential, with newly isolated strains of Bacilli and Cyanobacteria. We argue that these two groups of local organisms are currently most promising in terms of developing cell factories, due to their ability to operate in saline conditions, thus reducing the cost of desalination and sterilization. The ability of Cyanobacteria to perform photosynthesis can be fully exploited in this particular environment with one of the highest levels of irradiation on the planet. We highlight the importance of new experimental and in silico methodologies needed to overcome the hurdles of developing efficient cell factories from the Red Sea isolates. 相似文献
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Comparative modeling is becoming an increasingly helpful technique in microbial cell factories as the knowledge of the three-dimensional
structure of a protein would be an invaluable aid to solve problems on protein production. For this reason, an introduction
to comparative modeling is presented, with special emphasis on the basic concepts, opportunities and challenges of protein
structure prediction. This review is intended to serve as a guide for the biologist who has no special expertise and who is
not involved in the determination of protein structure. Selected applications of comparative modeling in microbial cell factories
are outlined, and the role of microbial cell factories in the structural genomics initiative is discussed. 相似文献
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Long Liu Ningzi Guan Jianghua Li Hyun-dong Shin Jian Chen 《Critical reviews in biotechnology》2017,37(2):139-150
Nutraceuticals are food substances with medical and health benefits for humans. Limited by complicated procedures, high cost, low yield, insufficient raw materials, resource waste, and environment pollution, chemical synthesis and extraction are being replaced by microbial synthesis of nutraceuticals. Many microbial strains that are generally regarded as safe (GRAS) have been identified and developed for the synthesis of nutraceuticals, and significant nutraceutical production by these strains has been achieved. In this review, we systematically summarize recent advances in nutraceutical research in terms of physiological effects on health, potential applications, drawbacks of traditional production processes, characteristics of production strains, and progress in microbial fermentation. Recent advances in systems and synthetic biology techniques have enabled comprehensive understanding of GRAS strains and its wider applications. Thus, these microbial strains are promising cell factories for the commercial production of nutraceuticals. 相似文献
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植物源二萜类天然产物结构复杂且功能多样,具有抗癌、抗炎和抗菌等多种药理活性,在药品、化妆品和食品添加剂等方面广泛应用。近年来,基于植物源二萜类化合物(diterpenoids)生物合成途径中功能基因的逐步揭示和合成生物技术的发展,科研人员采用代谢工程技术构建了多种二萜类化合物的微生物细胞工厂,且多个化合物达到克级产量。本文对植物源二萜类化合物微生物细胞工厂的构建情况进行综述,介绍并探讨植物源二萜类化合物微生物合成的研究进展和改造策略,为高产二萜类化合物细胞工厂构建和工业化生产提供参考。 相似文献
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Photosynthetic biomanufacturing provides a promising solution for sustainable production of biofuels and biochemicals. Cyanobacteria are among the most promising microbial platforms for the construction of photosynthetic cell factories. Metabolic engineering of cyanobacteria has enabled effective photosynthetic synthesis of diverse natural or non-natural metabolites, while commercialization of photosynthetic biomanufacturing is usually restricted by process and economic feasibilities. In actual outdoor conditions, active cell growth and product synthesis is restricted to narrow light exposure windows of the day-night cycles and is threatened by diverse physical, chemical, and biological environmental stresses. For biomass harvesting and bioproduct recovery, energy and cost consuming processing and equipment is required, which further decreases the economic and environmental competitiveness of the entire process. To facilitate scaled photosynthetic biomanufacturing, lots of efforts have been made to engineer cyanobacterial cell properties required by robust & continual cultivation and convenient & efficient recovery. In this review, we specifically summarized recently reported engineering strategies on optimizing industrial properties of cyanobacterial cells. Through systematically re-editing the metabolism, morphology, mutualism interaction of cyanobacterial chassis cells, the adaptabilities and compatibilities of the cyanobacterial cell factories to the industrial process could be significantly improved. Cell growth and product synthesis of the tailored cyanobacterial cells could be expanded and maintained at night and in stressful environments, while convenient biomass harvesting could also be expected. For developing more feasible cyanobacterial photosynthetic biomanufacturing in large scale, we here propose the importance of tailoring industrial properties of cyanobacteria and outline the directions that should be exploited in the future. 相似文献
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辅因子工程是代谢工程的一个新兴分支领域,主要通过直接调控细胞内关键酶的辅因子,如ATP/ADP、NADH/NAD+、NADPH/NADP+等的浓度和形式来实现代谢流的最大化,快速地将物质流导向目标代谢物。ATP作为一种重要辅因子参与微生物细胞内大量的酶催化反应,将物质代谢途径串联或并联成复杂的网络体系,最终使得物质代谢流的分配受到牵制。因此ATP调控策略有望成为微生物菌株改造的有利工具,用于提高目标代谢物的浓度和生产能力,强化微生物对于环境的耐受以及促进底物利用等。文中将重点论述目前常用的有效ATP调控策略以及ATP调控对于细胞代谢的影响,以期为微生物细胞工厂的高效构建提供参考。 相似文献
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现代生物发酵工业聚焦于设计和创制高效的微生物细胞工厂,以实现原料向目标产品的定向转化。评判微生物细胞工厂性能优劣的主要标准是其合成能力及稳定性。由于质粒系统存在拷贝数不稳定、易于丢失等局限性,在菌株改造中将基因或产物合成途径整合至染色体上实现稳定表达通常是更优的选择。因此,染色体的基因整合技术作为实现这一目标的重要手段已受到广泛关注,并得到快速发展。本综述梳理了近年来微生物染色体上的大片段DNA整合方法的研究进展,归纳了各种技术的原理和特点,尤其是新兴的CRISPR相关转座系统,同时对未来的发展重点和方向进行了展望。 相似文献
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合成生物学和代谢工程是构建微生物细胞工厂、实现化学品绿色生物制造的重要方法,目前主要集中在微生物代谢网络的改造及调控上,很少考虑到微生物细胞特性的影响。形态工程通过改造微生物细胞形态相关蛋白,有目的地对微生物细胞形态及分裂方式进行合理调控,从而优化微生物细胞的特性,是降低生物炼制成本的一种新兴生物工程技术。文中首先介绍了与微生物细胞形态相关的各类蛋白,并重点总结了形态工程在生物基化学品合成方面的应用进展,包括调控细胞体积以提高胞内产物积累量、改善细胞通透性以促进胞外产物分泌、实现高密度发酵以降低生产成本、控制产物水解程度以提高产品性能。最后,提出了形态工程面临的主要问题并展望了其未来的发展趋势。 相似文献
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Industrial biotechnology involves the utilization of cell factories for the production of fuels and chemicals. Traditionally, the development of highly productive microbial strains has relied on random mutagenesis and screening. The development of predictive mathematical models provides a new paradigm for the rational design of cell factories. Instead of selecting among a set of strains resulting from random mutagenesis, mathematical models allow the researchers to predict in silico the outcomes of different genetic manipulations and engineer new strains by performing gene deletions or additions leading to a higher productivity of the desired chemicals. In this review we aim to summarize the main modelling approaches of biological processes and illustrate the particular applications that they have found in the field of industrial microbiology. 相似文献
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Brigitte Gasser Markku Saloheimo Ursula Rinas Martin Dragosits Escarlata Rodríguez-Carmona Kristin Baumann Maria Giuliani Ermenegilda Parrilli Paola Branduardi Christine Lang Danilo Porro Pau Ferrer Maria Luisa Tutino Diethard Mattanovich Antonio Villaverde 《Microbial cell factories》2008,7(1):1-18
Different species of microorganisms including yeasts, filamentous fungi and bacteria have been used in the past 25 years for the controlled production of foreign proteins of scientific, pharmacological or industrial interest. A major obstacle for protein production processes and a limit to overall success has been the abundance of misfolded polypeptides, which fail to reach their native conformation. The presence of misfolded or folding-reluctant protein species causes considerable stress in host cells. The characterization of such adverse conditions and the elicited cell responses have permitted to better understand the physiology and molecular biology of conformational stress. Therefore, microbial cell factories for recombinant protein production are depicted here as a source of knowledge that has considerably helped to picture the extremely rich landscape of in vivo protein folding, and the main cellular players of this complex process are described for the most important cell factories used for biotechnological purposes. 相似文献
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胆固醇是动物体内积累的主要甾醇化合物,在维持细胞膜功能、合成甾体激素、生产甾体药物中间体等方面具有重要的生物学意义和医学应用价值。传统动物组织提取胆固醇的方法费时费力并存在严重的环境污染问题,而甾醇分子结构的复杂程度也限制了其化学全合成。近些年,人们利用合成生物学方法构建的微生物细胞工厂已成功用于萜类、甾醇类等天然产物的开发与合成。文中综述了胆固醇微生物细胞工厂的研究进展,包括胆固醇生物合成途径的解析、底盘菌株的选择、异源基因元件的挖掘与优化、相关代谢通路的调控等方面,并讨论了当前研究面临的问题,以期为胆固醇的高效生物合成提供参考。 相似文献
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As important oxygenic photoautotrophs, cyanobacteria are also generally considered as one of the most promising microbial chassis for photosynthetic biomanufacturing. Diverse synthetic biology and metabolic engineering approaches have been developed to enable the efficient harnessing of carbon and energy flow toward the synthesis of desired metabolites in cyanobacterial cell factories. Glycogen metabolism works as the most important natural carbon sink mechanism and reserve carbon source, storing a large portion of carbon and energy from the Calvin-Benson-Bassham (CBB) cycle, and thus is traditionally recognized as a promising engineering target to optimize the efficacy of cyanobacterial cell factories. Multiple strategies and approaches have been designed and adopted to engineer glycogen metabolism in cyanobacteria, leading to the successful regulation of glycogen synthesis and storage contents in cyanobacteria cells. However, disturbed glycogen metabolism results in weakened cellular physiological functionalities, thereby diminishing the robustness of metabolism. In addition, the effects of glycogen removal as a metabolic engineering strategy to enhance photosynthetic biosynthesis are still controversial. This review focuses on the efforts and effects of glycogen metabolism engineering on the physiology and metabolism of cyanobacterial chassis strains and cell factories. The perspectives and prospects provided herein are expected to inspire novel strategies and tools to achieve ideal control over carbon and energy flow for biomanufacturing. 相似文献
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Paola Branduardi Francesca de Ferra Valeria Longo Danilo Porro 《Engineering in Life Science》2014,14(1):16-26
In the context of the global objective of shifting from petroleum to a biomass‐based economy, the research on fermentative strategies to produce alternative biofuels and chemicals has become a predominant field of study. Microorganisms, because of their substrate versatility and metabolic efficiency, are promising to partially support our increasing needs for materials and fuels, opening up scenarios for the use of alternative sources, including wastes. Butanol is a very attractive molecule since it can be seen both as a chemical platform and as a fuel. Today, it is principally derived from petroleum, but it also represents the final product of a microbial fermentation. Although Clostridia are the natural and traditional organisms employed in butanol production, systematic approaches to improve production and resistance traits are currently impeded by a lack of characterization and genetic tools. This is the main reason why, besides their optimizations, a significant and growing amount of research is centered on the engineering of alternative robust cell factories capable of elevated production, possibly combined with higher tolerance. Here, we review the most recent advances in n‐butanol production in non‐Clostridial microbial hosts, including not only other prokaryotic but also eukaryotic microorganisms, which might eventually be seen as second‐generation hosts. 相似文献
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利用微生物细胞工厂实现高效的原料利用和目标物质合成是合成生物学的重要研究方向之一。传统工业微生物主要以糖基类原料作为发酵底物,而发掘更为廉价的碳资源并实现其高效利用,值得探究。甲酸是重要的有机一碳资源,亦是基本有机化工原料之一,广泛应用于农药、皮革、染料、医药和橡胶等工业。近年来受产业需求波动的影响,甲酸生产面临产能过剩的困境,亟待发展新的转化路径来拓展和延伸相关产业链,而生物路线是重要方向之一。然而,天然的甲酸利用微生物普遍存在生长缓慢、甲酸代谢效率低以及分子工具匮乏造成遗传改造困难等问题,亟待改造和优化;而人工构建甲酸利用微生物的研究尚处于起始阶段,存在极大的发展空间,值得关注。文中对近年来甲酸生物利用的研究进展进行了梳理和总结,并对今后的研究重点和方向提出建议。 相似文献
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