Use of Staphylococcus aureus 6-P-β-Galactosidase and GFP as Fusion Partners for Lactose-Specific IIC Domain from Staphylococcus aureus

摘要

The hydrophilic part of membrane proteins plays an important role in the formation of 3D crystals. The construction of fusion proteins using well crystallizing proteins as fusion partners is a possibility to increase the hydrophilic part of membrane proteins lacking large hydrophilic domains. These fusion proteins might be easier to crystallize. Two bifunctional fusion proteins containing the membrane-bound, lactose-specific enzyme IIC domain of the lactose transporter (IICB~(lac)) from S. aureus as N-terminal fusion partner were constructed by gene fusion. The C-terminal fusion partners were S. aureus 6-P-β-Galactosidase and GFP, respectively. Both proteins were overexpressed in E. coli, purified to homogeneity nad kinetically characterized: In the presence of the components of the lactose phosphotransferase system of S. aureus, the hybrid proteins phosphorylated their substrates, indicating that the fusion partners are sufficiently flexibly linked to allow the interaction of the IIC~(lac) domain with the IIB~(lac) domain of the lactose transporter. The activity of the 6-P-β-Galactosidase as well as the fluorescence of GFP were preserved in the fusion proteins. The V_(max) values determined for the IIC domain in the fusion proteins were dramatically reduced compared with the values determined for the separate IIC~(lac) domain and the complete lactose transporter (IICB~(lac)). The K_m values were only slightly increased indicating that the V_(max) values are much more influenced by the fusion than the substrate affinities. The substrate affinity and the V_(max) value determined for the GFP-fused IIC~(lac) domain are higher than for the 6-P-β-Galactosidase-fused IIC~(lac). These results suggest that the fusion with GFP enables a better interaction with the IIB~(lac) domain than the fusion with 6-P-β-Galactosidase. Moreover, the GFP-fused IIC~(lac) domain proved to be more stable than the 6-P-β-Galactosidase fusion protein.