초록
<P><B>ABSTRACT</B></P><P>L‐serine is a widely used amino acid that has been proposed as a potential building block biochemical. The high theoretical yield from glucose makes a fermentation based production attractive. In order to achieve this goal, serine degradation to pyruvate and glycine in <I>E. coli</I> MG1655 was prevented by deletion of three L‐serine deaminases <I>sdaA</I>, <I>sdaB</I>, and <I>tdcG</I>, as well as serine hydroxyl methyl transferase (SHMT) encoded by <I>glyA</I>. Upon overexpression of the serine production pathway, consisting of a feedback resistant version of <I>serA</I> along with <I>serB</I> and <I>serC</I>, this quadruple deletion strain showed a very high serine production yield (0.45 g/g glucose) during small‐scale batch fermentation in minimal medium. Serine, however, was found to be highly toxic even at low concentrations to this strain, which lead to slow growth and production during fed batch fermentation, resulting in a serine production of 8.3 g/L. The production strain was therefore evolved by random mutagenesis to achieve increased tolerance towards serine. Additionally, overexpression of <I>eamA</I>, a cysteine/homoserine transporter was demonstrated to increase serine tolerance from 1.6 g/L to 25 g/L. During fed batch fermentation, the resulting strain lead to the serine production titer of 11.7 g/L with yield of 0.43 g/g glucose, which is the highest yield reported so far for any organism. Biotechnol. Bioeng. 2016;113: 807–816. © 2015 Wiley Periodicals, Inc.</P>