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Titlebook: Amino Acid Fermentation; Atsushi Yokota,Masato Ikeda Book 2017 Springer Japan KK 2017 Amino acid.Fermentation.Industrial production.Bacter

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發(fā)表于 2025-3-21 16:54:19 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
期刊全稱Amino Acid Fermentation
影響因子2023Atsushi Yokota,Masato Ikeda
視頻videohttp://file.papertrans.cn/155/154684/154684.mp4
發(fā)行地址Examines updated and comprehensive contents in amino acid fermentation.Presents a comprehensive review of an exciting history.Is written by authors who are involved in research and development in acad
學(xué)科分類Advances in Biochemical Engineering/Biotechnology
圖書封面Titlebook: Amino Acid Fermentation; Atsushi Yokota,Masato Ikeda Book 2017 Springer Japan KK 2017 Amino acid.Fermentation.Industrial production.Bacter
影響因子.This book presents the latest findings on amino acid fermentation and reviews the 50-year history of their development. The book is divided into four parts, the first of which presents a review of amino acid fermentation, past and present. The second part highlights selected examples of amino acid fermentation in more detail, while the third focuses on recent advanced technologies. The last part introduces readers to several topics for future research directions in amino acid production systems. A new field, “amino acid fermentation”, was created by the progress of academic research and industrial development. In 1908, the Japanese researcher Kikunae Ikeda discovered glutamate as an Umami substance. Then a new seasoning, MSG (monosodium glutamate), was commercialized. Although glutamate was extracted from the hydro-lysate of wheat or soybean in the early days, a new production method was subsequently invented – “fermentation” – in which glutamate is produced from sugars such as glucose by a certain bacterium called .Corynebacterium.. The topic of this volume is particularly connected in a significant way with biochemical, biotechnological, and microbial fields. Both professionals
Pindex Book 2017
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Discovery and History of Amino Acid Fermentation,n 1907. The discovery of glutamate fermentation by . in 1956 enabled abundant and low-cost production of the amino acid, creating a large market. The discovery also prompted researchers to develop fermentative production processes for other .-amino acids, such as lysine. Currently, the amino acid fe
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Glutamate Fermentation-2: Mechanism of ,-Glutamate Overproduction in ,,d in various amino acid fermentation processes. .-Glutamate production by . is induced by limitation of biotin and addition of fatty acid ester surfactants and β-lactam antibiotics. These treatments affect the cell surface structures of .. After the discovery of ., many researchers have investigated
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Lysine Fermentation: History and Genome Breeding,rmentation process after glutamate fermentation. The fundamental mechanism of lysine production, discovered in the early stages of the process’s history, gave birth to the concept known as “metabolic regulatory fermentation,” which is now widely applied to metabolite production. After the developmen
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,-Methionine Production,r medical supplies and drugs. It functions not only as an essential amino acid but also as a physiological effector, for example, by inhibiting fat accumulation and enhancing immune response. Producing methionine from fermentation is beneficial in that microorganisms can produce .-methionine selecti
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