Litcius/Paper detail

Engineering <scp>d</scp>‐Lactate Dehydrogenase to Favor an Non‐natural Cofactor Nicotinamide Cytosine Dinucleotide

Yuxue Liu, Qing Li, Lei Wang, Xiaojia Guo, Junting Wang, Qian Wang, Zongbao K. Zhao

2020ChemBioChem27 citationsDOI

Abstract

Synthetic nicotinamide adenine dinucleotide (NAD) analogues are of great scientific and biotechnological interest. One such analogue, nicotinamide cytosine dinucleotide (NCD), has been successfully applied to creating bioorthogonal redox systems. Yet, only a few redox enzymes have been devised to favor NCD. We have engineered Lactobacillus helveticus-derived NAD-dependent d-lactate dehydrogenase (LhDLDH) to favor NCD by semirational design. Sequence alignment and structural analysis revealed that amino acid residues I177 and N213 form a "gate" guarding the NAD adenine moiety binding cavity. Saturated mutagenesis libraries were constructed by using the mutant LhDLDH-V152R as the parental sequence. Mutants were obtained with good catalytic efficiency, and NCD preference increased by up to 940-fold. Experiments showed that Escherichia coli cells expressing mutants with higher NCD preference afforded much less d-lactate, thus suggesting the potential to construct NCD-mediated orthogonal metabolism.

Topics & Concepts

CofactorNicotinamide adenine dinucleotideBiochemistryNAD+ kinaseLactate dehydrogenaseCytosineChemistryProtein engineeringNicotinamide adenine dinucleotide phosphateEnzymeDNAOxidase testBiochemical and Molecular ResearchAmino Acid Enzymes and MetabolismMetabolism and Genetic Disorders