Remarkable enhancement in PLD activity from Streptoverticillium cinnamoneum by substituting serine residue into the GG/GS motif

The gene that encodes phospholipase D (PLD) from Streptoverticillium cinnamoneum contains three consensus regions (Region I, II and IV as shown in Fig. 1A) that are conserved among the PLD superfamily. The glycine-glycine (GG) motif in Region I and the glycine-serine (GS) motif in Region IV are also conserved in the PLD superfamily. These (GG and GS) motifs are located 7 residues downstream from each HKD motif. In an investigation of fifteen GG/GS motif mutants, generated as fusion proteins with maltose-binding protein (MBP-PLDs), three highly active mutants were identified. Three of the mutants (G215S, G216S, and G216S-S489G) contained a serine residue in the GG motif, and exhibited approximately a 9-27-fold increased transphosphatidylation activity to DPPC compared with recombinant wild type MBP-PLD. When heat stability was compared between three mutants and the recombinant wild type, only G216S-S489G showed heat labile properties. It appears that the 489th serine residue in the GS motif also contributes to the thermal stability of the enzyme. In addition, the GG/GS motif was very close to the active center residue, including two HKD motifs, as shown by computer modeling. The findings suggest that the GG/GS motif of PLD is a key motif that affects catalytic function and enzymatic stability.