Читать книгу Biomolecular Engineering Solutions for Renewable Specialty Chemicals - Группа авторов - Страница 12

As we are going toward becoming more developed, we tend to see our transition toward more sustainable resources and knowing and understanding the life form more. This leads to the use of the living system and engineer them to produce biocommodities such as fuels, polymers, hormones, therapeutic proteins and peptides, and neurotransmitters, which is termed as biocommodity engineering. It basically deals with the need of society. Biotechnology, genetic engineering, and biocommodity engineering can be combined to meet these needs. The foundation of biocommodity engineering lies in molecular biology, which is also the foundation of genetic engineering or recombinant DNA technology (rDT). Therefore, it can be said that these terms are interrelated to each other. The majority of the biocommodities consumed by humans were earlier isolated from plants and animals, posing the threat of activation of immune reactions in humans. So, the machinery of the synthesis of these biocommodities can be engineered in microorganisms.

Its main aim is to engineer microorganisms to get a high yield of the product, use cheap raw material as a substrate so that cost of the product can be minimized, easy downstream processing, increasing robustness of the microorganism, etc. All this can be achieved by genetically modifying the organisms using genetic toolkits. This chapter deals with the basics of genetic engineering, giving details about the enzymes used, transformation techniques, and how to select a transformant from non‐transformants. Further sections compile the comprehensive data of the problems in the production of biopolymers, organic acids, and therapeutic proteins from conventional methods and development of mutant strains for the synthesis of these biocommodities. The last section of the chapter gives an insight about the biofuel production from photoautotrophic organisms such as cyanobacteria and microalgae, which utilizes sunlight and carbon dioxide as energy and carbon source, respectively.