Structure determination of histidine decarboxylase from Lactobacillus 30a at 3.0 A resolution.

The crystal structure of histidine decarboxylase from Lactobacillus 30a has been determined by X-ray diffraction methods to a resolution of 3.0 A. This protein is a pyruvoyl-dependent enzyme that is formed by an unusual self-activation process. The structure was determined from an electron density map calculated using multiple isomorphous replacement phases from two heavy-atom derivatives and included contributions from anomalous scattering measurements. The final mean figure of merit was 0.79, based on 28,805 independent reflections. The molecule has an (alpha beta)6 subunit composition and crystallizes in the space group 14122 with a = b = 221.7 A and c = 107.1 A. There is one (alpha beta)3 half molecule per asymmetric unit. The (alpha beta)6 particle is dumbbell-shaped, with each (alpha beta)3 unit being approximately spherical, with a diameter of about 65 A. There is a large central cavity approximately 30 A deep around the molecular 3-fold axis of the (alpha beta)3 unit. The 3-fold related active site pockets are located around the bottom of this cavity and are separated from each other by a distance of approximately 23 A. The inner portion of each (alpha beta) unit, which lies near the interface between the two (alpha beta)3 particles, consists mainly of random coil with several small helical and sheet regions. The outer region of each (alpha beta) unit has an unusual structure consisting of two overlapping, predominantly antiparallel beta-pleated sheets, lined on each side by an alpha-helix. The walls of the central cavity are formed by the 3-fold repeat of two strands from this beta-sandwich structure and one of the helices.