Expression and Purification of DGD2, a Chloroplast Outer Membrane-Associated Glycosyltransferase for Galactolipid Synthesis

Galactolipids are characteristic lipids of the photosynthetic membranes. They are highly enriched in the chloroplast and are present in photosystem structures. There are two major types of galactolipids, i.e., monogalactosyldiacylglycerol and digalactosyldiacylglycerol (DGDG) in chloroplastic membranes, which amount to similar to 50 and similar to 20 mol % of the total chloroplast lipids, respectively. Under phosphate-limiting conditions, the amount of DGDG increases dramatically for rescuing phosphate from phospholipids. In Arabidopsis thaliana, the gene digalactosyldiacylglycerol synthase 2 (DGD2) encodes a membrane-associated glycosyltransferase. The gene expression is highly responsive to phosphate starvation and is significantly upregulated in this case. To understand the molecular mechanism of DGD2, we established a protocol for DGD2 expression and purification in an Escherichia coli-based system. The work involved optimization of the expression condition and the purification protocol and a careful selection of buffer additives. It was found that a removal of around 70 C-terminal residues was necessary to produce a homogeneous monomeric protein sample with high purity, which was highly active. The purified sample was characterized by an activity assay for enzyme kinetics in which a range of membrane mimetics with different lipid compositions were used. The results demonstrate that DGD2 activity is stimulated by the presence of negatively charged lipids, which highlight the importance of the membrane environment in modulating the enzyme's activity. The study also paves way for future biophysical and structural studies of the enzyme.