In E. coli the non-canonical amino acids acids norvaline, norleucine, and β-methylnorleucine, which derive from an off-pathway of the branched-chain amino acid synthesis route are synthesized and incorporated into cellular and recombinant proteins. The synthesis of these amino acids is supported by a high flux of glucose through the glycolytic pathway in combination with a derepression of the enzymes of the branched chain amino acid pathway, for example, when leucine-rich proteins are produced. Avoiding the synthesis and misincorporation of these amino acids has been challenging, especially in large-scale pharmaceutical processes where the problem is boosted by the typical fed-batch production and the technical limitation of mass transfer in the bioreactors. Despite its industrial importance, so far this issue has not been discussed comprehensively. Therefore this paper reviews, firstly, the specific pathway of the non-canonical branched chain amino acids starting at pyruvate, secondly, the molecular factors for their misincorporation, and thirdly, approaches to avoid this misincoporation. While the synthesis of these amino acids is difficult to prevent due to the broad promiscuity of the connected enzymes, recent studies on the control mechanisms of aminoacyl tRNA synthetases open new opportunities to avoid this misincorporation.
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