Abstract
The effect of nonlamellar-prone lipids, diacylglycerol (DG) and phosphatidylethanolamine (PE), on the ATPase activity of SecA was examined. When Escherichia coli PE of the standard vesicles composed of 60 mol% of this lipid and 40 mol% of dioleoylphosphatidylglycerol (DOPG) is gradually replaced with either dioleoylglycerol (DOG) or dioeloyl PE (DOPE), the ATPase activity of SecA present together increased appreciably. On the other hand, when E. coli PE of the standard vesicles was replaced with DOG analogs, the SecA ATPase activity decreased slightly, and when replaced with phosphatidylcholine the decrease in the ATPase activity was more appreciable. When DOPE or E. coli PE was added to PC vesicles, the SecA ATPase activity was enhanced only slightly, suggesting that the hexagonal II structure per se is not important for the ATPase activity increase. It was observed that DOG induced phase separation of PG, and the lamellar-hexagonal II (L-HII) transition temperature of vesicles decreased by about 10 degreesC. The DOG analogs had no effect on these properties, suggesting the importance of the phase separation of PG and the decrease of L-HII transition temperature of lipid bilayers to the SecA ATPase activity. The phase separation of PG by Ca2+ also brought about increased ATPase activity of SecA, underlining the importance of phase separation of PG for the enzyme activity. The incorporation of DOG or DOPE in the vesicle also increased the amount of SecA bound to model membranes and the extent of SecA penetration into the membrane. Studies with vesicles without SecA showed increased exposure of hydrophobic acyl chains when the DOG was present. Taken together, these observations suggest that the phase separation of PG and/or the bilayer penetration of SecA are mainly responsible for the enhanced SecA-vesicle interaction with concomitant increase in SecA ATPase activity.
Highlights
SecA is the central protein component of the translocation machinery for the newly synthesized proteins in Escherichia coli
No discernible increase in this enzyme activity can be seen in the presence of PC vesicles, a tremendous enhancement of its activity is observed in the presence of vesicles, which has similar composition as the E. coli inner membrane, 60% phosphatidylethanolamine (PE) and 40% phosphatidylglycerol (PG) (5)
It should be noticed that vesicles containing DOPE, which is in the HII state at the experimental temperature of 37 °C, give only a slightly higher ATPase activity than the vesicles with E. coli PE, which is in the lamellar form
Summary
SecA is the central protein component of the translocation machinery for the newly synthesized proteins in Escherichia coli. These observations suggest that the nonlamellar-prone lipid, PE, in the vesicles promotes the binding and penetration of SecA into the bilayer, which enhances the ATPase activity.
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