Titlebook: Synthetic Biology of Cyanobacteria; Weiwen Zhang,Xinyu Song Book 2018 Springer Nature Singapore Pte Ltd. 2018 Cyanobacteria.Synthetic biol

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Synthetic Biology Approaches to the Sustainable Production of ,-Coumaric Acid and Its Derivatives inon of .-coumaric acid and its derivatives. Cyanobacterial engineering approaches are briefly reviewed. Strategies to increase production yield are discussed, including codon optimization of genes expressing enzymatic proteins and a laccase-coding gene knockout from . genome which degrades polyphenols.

泥沼

Challenges in the Application of Synthetic Biology Toward Synthesis of Commodity Products by Cyanobainable development of human societies. However, the feasibility of this “green conversion” hinders on our ability to overcome the hurdles presented by the natural evolvability of microbes. The latter may result in the genetic instability of engineered cyanobacterial strains leading to impaired produ

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Transporters Related to Stress Responses and Their Potential Application in , sp. PCC 6803emicals has drawn considerable interest, and several dozen products have been successfully synthesized in genetically engineered cyanobacteria. However, during cultivation, cyanobacterial cells are typically exposed to various stresses from the environment, such as acid, salt and metal stresses, as

ARCH

Discovery and Application of Stress-Responsive sRNAs in Cyanobacterian due to their participation in various bacterial biological processes, such as plasmid control, viral replication, bacterial virulence, and quorum sensing. In addition, there has been a gradual realization that sRNAs play important roles in the response to various stress perturbations. Gram-negativ

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Production of Industrial Chemicals from CO2 by Engineering Cyanobacteriay. The direct biosynthesis of chemicals from CO. and sunlight in cyanobacteria is therefore theoretically more attractive than using glucose as carbon source in heterotrophic bacteria. To date, more than 20 different target chemicals have been synthesized from CO. in cyanobacteria. However, the yiel

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Production of Bioplastic Compounds by Genetically Manipulated and Metabolic Engineered Cyanobacteriaels. Cyanobacteria are photosynthetic bacteria that perform oxygenic photosynthesis and are able to produce valuable compounds from carbon dioxide in the air. . and . species, model unicellular cyanobacteria, can produce succinate and lactate, which are commodity chemicals used to generate bioplasti

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Direct Photosynthetic Production of Plastic Building Block Chemicals from CO2amins, antibiotics, and flavor compounds as well as monomers for biodegradable plastic polyesters. The current approach to hydroxy acid production relies on nonrenewable fossil resources such as petroleum for raw materials, raising issues such as the rising costs of starting materials and environmen