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2Innovations and High Technologies MSU Ltd., 109451 Moscow, Russia
3Bach Institute of Biochemistry, Research Center of Biotechnology of the Russian Academy of Sciences, 119071 Moscow, Russia
4Mendeleev University of Chemical Technology of Russia, 125047 Moscow, Russia
5Koltzov Institute of Developmental Biology of Russian Academy of Sciences, 119334 Moscow, Russia
6Sechenov First Moscow State Medical University, 119991 Moscow, Russia
* To whom correspondence should be addressed.
Received March 23, 2020; Revised March 27, 2020; Accepted March 27, 2020
Phenylacetone monooxygenase (EC 1.14.13.92, PAMО) catalyzes oxidation of ketones with molecular oxygen and NADPH with the formation of esters. PAMО is a promising enzyme for biotechnological processes. In this work, we generated genetic constructs coding for PAMO from Thermobifida fusca, containing N- or C-terminal His6-tags (PAMO N and PAMO C, respectively), as well as PAMO L with the His6-tag attached to the enzyme C-terminus via a 19-a.a. spacer. All PAMO variants were expressed as catalytically active proteins in Escherichia coli BL21(DE3) cells; however, the expression level of PAMO N was 3 to 5 times higher than for the other two enzymes. The catalytic constants (kcat) of PAMO C and PAMO L were similar to that published for PAMO L produced in a different expression system; the catalytic constant for PAMO N was slightly lower (by 15%). The values of Michaelis constants with NADPH for all PAMО variants were in agreement within the published data for PAMO L (within the experimental error); however, the KM for benzylacetone was several times higher. Thermal inactivation studies and differential scanning calorimetry demonstrated that the thermal stability of PAMO N was 3 to 4 times higher compared to that of the enzymes with the C-terminal His6-tag.
KEY WORDS: phenylacetone monooxygenase, His-tag, gene expression, mutagenesis, catalytic properties, temperature stabilityDOI: 10.1134/S0006297920050065
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