Effect of alsD deletion and overexpression of nox and alsS on diacetyl and acetoin production by Lacticaseibacillus casei during milk fermentation.

ABSTRACT

Diacetyl and acetoin are key aroma components of fermented milk but are produced in low concentrations by starter cultures. In this study, we expressed NADH oxidase, acetolactate synthase, and inactivated acetolactate decarboxylase in Lacticaseibacillus casei TCS to generate recombinant L. casei strains, and investigated the effects of the genes encoding these enzymes on diacetyl and acetoin production during milk fermentation. In the single-gene recombinant strains tested, diacetyl concentrations were highest in milk fermented by L. casei TCSI-nox (nox gene overexpressed, 3.68 mg/kg), whereas acetoin concentrations were highest in milk fermented by L. casei TCS-ΔalsD (alsD gene deleted, 32.94 mg/kg). Moreover, diacetyl and acetoin concentrations were higher in the inducible strains than in the corresponding constitutive strains (e.g., TCSI-nox vs. TCSC-nox, and TCSI-ΔalsD-nox vs. TCSC-ΔalsD-nox). This phenomenon was also reflected in the protein expression levels and enzyme activities. In the double-gene recombinant strains tested, the highest concentrations of diacetyl and acetoin were produced by L. casei TCSI-ΔalsD-nox (nox overexpressed and alsD deleted, 4.66 mg/kg, 69.62 mg/kg, respectively). The triple-gene recombinant L. casei TCS-ΔalsD-nox-alsS produced the highest concentrations of diacetyl and acetoin, which were 2.38 and 11.19 times, respectively, the concentrations produced by the original strain. These results show that the nox, alsS, and alsD genes make key contributions to the biosynthesis of diacetyl and acetoin by L. casei. The modification of multiple genes had a synergistic effect, leading to greatly increased synthesis of diacetyl and acetoin by L. casei during its fermentation of milk.