Abstract
The crystal structure of the W47A/W242A mutant of phosphatidylinositol-specific phospholipase C (PI-PLC) from Bacillus thuringiensis has been solved to 1.8A resolution. The W47A/W242A mutant is an interfacially challenged enzyme, and it has been proposed that one or both tryptophan side chains serve as membrane interfacial anchors (Feng, J., Wehbi, H., and Roberts, M. F. (2002) J. Biol. Chem. 277, 19867-19875). The crystal structure supports this hypothesis. Relative to the crystal structure of the closely related (97% identity) wild-type PI-PLC from Bacillus cereus, significant conformational differences occur at the membrane-binding interfacial region rather than the active site. The Trp --> Ala mutations not only remove the membrane-partitioning aromatic side chains but also perturb the conformations of the so-called helix B and rim loop regions, both of which are implicated in interfacial binding. The crystal structure also reveals a homodimer, the first such observation for a bacterial PI-PLC, with pseudo-2-fold symmetry. The symmetric dimer interface is stabilized by hydrophobic and hydrogen-bonding interactions, contributed primarily by a central swath of aromatic residues arranged in a quasiherringbone pattern. Evidence that interfacially active wild-type PI-PLC enzymes may dimerize in the presence of phosphatidylcholine vesicles is provided by fluorescence quenching of PI-PLC mutants with pyrene-labeled cysteine residues. The combined data suggest that wild-type PI-PLC can form similar homodimers, anchored to the interface by the tryptophan and neighboring membrane-partitioning residues.
Highlights
1,2-cyclic inositol phosphate, followed by (ii) a phosphodiesterase reaction where water-soluble cIP is hydrolyzed to inositol-1phosphate
Crystal Structure of the W47A/ W242A Mutant of phosphatidylinositol-specific phospholipase C (PI-PLC)—The B. thuringiensis PI-PLC W47A/ W242A mutant crystallized in the P212121 space group with two monomers in the asymmetric unit (Fig. 1)
Previous kinetic studies have established that the B. thuringiensis PI-PLC W47A/W242A mutant is an interfacially impaired enzyme that no longer binds well to activating
Summary
Wild type W47/242A Y57C Y57C-pyr W242C W242C-pyr S250C S250C-pyr W280C W280C-pyr. 59 Ϯ 19 70 Ϯ 8 200 Ϯ 15 125 Ϯ 20 71 Ϯ 25 43 Ϯ 10 66 Ϯ 12 40 Ϯ 5 a The phosphotransferase activities were measured at 28 °C towards 8 mM PI solubilized in 32 mM diC7PC, pH 7.5. The overall structure and the active site of this mutant are very similar to that in the structure of the PI-PLC from B. cereus [6], helix B has been disrupted, and the orientation of the loop 236 –244 has shifted. This mutant protein crystallized as a dimer in the asymmetric unit, the first time a bacterial PI-PLC oligomer has been observed. Fluorescence quenching assays of various PI-PLC constructs with fluorophores introduced in the region of the dimer interface strongly support the idea that binding to PC interfaces promotes formation of the dimer
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