Constitutively active promoter elements for heterologous protein production in Lactococcus lactis are scarce. Here, the promoter of the PTS-IIC gene cluster from L. lactis NZ3900 is described. This promoter was cloned upstream of an enhanced green fluorescent protein, GFPmut3a, and transformed into L. lactis. Transformants produced up to 13.5 μg of GFPmut3a per milliliter of log phase cells. Addition of cellobiose further increased the production of GFPmut3a by up to two-fold when compared to glucose. Analysis of mutations at two specific positions in the PTS-IIC promoter showed that a 'T' to 'G' mutation within the -35 element resulted in constitutive expression in glucose, while a 'C' at nucleotide 7 in the putative cre site enhanced promoter activity in cellobiose. Finally, this PTS-IIC promoter is capable of mediating protein expression in Bacillus subtilis and Escherichia coli Nissle 1917, suggesting the potential for future biotechnological applications of this element and its derivatives.
Keywords: ELISA, enzyme-linked immunosorbent assay; GFP, green fluorescent protein; Heterologous protein expression; LAB, lactic acid bacteria; LB, Luria-Bertani media; Lactococcus lactis; OD600, optical density at 600 nm; PBS, phosphate buffered saline; Probiotics; Promoter; RFU, relative fluorescence unit; ccpA, catabolite control protein A; celA, cellobiose-specific phosphor-β-glucosidase; cre, catabolite-responsive element; noxE, NADH oxidase promoter; nt, nucleotide; ptcC, cellobiose-specific PTS IIC component.