作者
Gayle J Bentley, Niju Narayanan, Ramesh K Jha, Davinia Salvachúa, Joshua R Elmore, George L Peabody, Brenna A Black, Kelsey Ramirez, Annette De Capite, William E Michener, Allison Z Werner, Dawn M Klingeman, Heidi S Schindel, Robert Nelson, Lindsey Foust, Adam M Guss, Taraka Dale, Christopher W Johnson, Gregg T Beckham
发表日期
2020/5/1
期刊
Metabolic engineering
卷号
59
页码范围
64-75
出版商
Academic Press
简介
Pseudomonas putida KT2440 has received increasing attention as an important biocatalyst for the conversion of diverse carbon sources to multiple products, including the olefinic diacid, cis,cis-muconic acid (muconate). P. putida has been previously engineered to produce muconate from glucose; however, periplasmic oxidation of glucose causes substantial 2-ketogluconate accumulation, reducing product yield and selectivity. Deletion of the glucose dehydrogenase gene (gcd) prevents 2-ketogluconate accumulation, but dramatically slows growth and muconate production. In this work, we employed adaptive laboratory evolution to improve muconate production in strains incapable of producing 2-ketogluconate. Growth-based selection improved growth, but reduced muconate titer. A new muconate-responsive biosensor was therefore developed to enable muconate-based screening using fluorescence activated …
学术搜索中的文章
GJ Bentley, N Narayanan, RK Jha, D Salvachúa… - Metabolic engineering, 2020