Activation of diacylglycerol acyltransferase expressed in Saccharomyces cerevisiae: overexpression of Dga1p lacking the N-terminal region in the ∆snf2 disruptant produces a significant increase in its enzyme activity

We previously found that overexpression of DGA1 encoding diacylglycerol acyltransferase (DGAT) in the ∆snf2 disruptant of Saccharomyces cerevisiae caused a significant increase in lipid accumulation and DGAT activity. The present study was conducted to investigate how Dga1p is activated in the ∆snf2 disruptant. To analyze the expression of Dga1p in wild type and the ∆snf2 disruptant, we overexpressed Dga1p with a 6x His tag at the N-terminus and a FLAG tag at the C-terminus. Immunoblotting using anti-6x His and anti-FLAG antibodies revealed that, in addition to full-length protein, Dga1p lacking the N-terminus was produced only in the ∆snf2 disruptant. Full-length Dga1p and N-terminally truncated Dga1p were separated and purified from the lipid body fraction by using anti-FLAG M2 agarose and TALON metal affinity resin. Major DGAT activity was recovered in the purified fraction of N-terminally truncated Dga1p, indicating that proteolytic cleavage at the N-terminal region is involved in DGAT activation in the ∆snf2 disruptant. Analysis of the cleavage site of N-terminally truncated Dga1p revealed a major site between Lys-29 and Ser-30. We then overexpressed truncated Dga1p variants that lacked different N-terminal amino acids and had a FLAG tag at the C-terminus. The homogenate and lipid body fraction of the ∆snf2 disruptant overexpressing Dga1p lacking the N-terminal 29 amino acids (Dga1∆N2p) had higher DGAT activity than that overexpressing Dga1p, indicating that Dga1∆N2p is activated Dga1p. Dga1∆N2p-FLAG(C-terminus) was purified to near homogeneity by anti-FLAG M2 agarose chromatography and maintained significant DGAT activity. These results provide a new strategy to engineer expression of DGAT.