Abstract
Introduction. As part of a structural genomics program, we are determining structures of proteins from the causative agent of anthrax, Bacillus anthracis, a Grampositive spore-forming bacterium. Among our initial candidates for crystallographic analysis are the products of essential genes based on knock-out studies in Bacillus subtilis. The BA3935 gene of B. anthracis (www.tigr.org), annotated as DapA2, encodes a putative protein consisting of 292 amino acid residues with a subunit molecular weight of 31,233 Da. The predicted protein has 60% identity with dihydrodipicolinate synthase (DHDPS or DapA) from B. subtilis and 40% amino acid sequence identity to its orthologue in Escherichia coli. dapA is one of only 271 out of the total of 4118 genes in B. subtilis that are indispensable for growth of the organism on standard laboratory media. 1 DHDPS catalyses the condensation of aspartate semialdehyde and pyruvate and is the first committed step on the pathway to diaminopimelate and L-lysine in prokaryotes, some fungi, and higher plants (Scheme 1). The product released from the E. coli enzyme has been shown to be 4-hydroxy-2,3,4,5-tetrahydro-(2S)-dipicolinic acid (HTDPA) rather than L-2,3-dihydrodipicolinic acid (DHDPA); as the name of the enzyme suggests, 2 DHDPA can be formed spontaneously from HTDPA by elimination of water. The steps of aspartate semialdehyde synthesis from aspartate are shared with the biosynthetic pathways leading methionine and threonine. The diaminopimelate/ lysine pathway is thought to be of particular importance in Gram-positive bacteria because diaminopimelate makes up a higher proportion of the dry cell weight than it does in Gram-negative bacteria, a consequence of the thicker cell wall in the former. In Bacilli, the product of the DHDPS reaction is further reduced by dipicolinate synthase to dipicolinate, which makes up 10% of the dry weight of spores. Crystal structures have been determined of DHDPS from E. coli, 3 Nicotiana sylvestris, 4 and most recently from Thermotoga maritima. 5 In this article, we report the crystal structure of DHDPS from B. anthracis (Ba DHDPS), the first structure of a dihydrodipicolinate synthase from a Gram-positive bacterium. The structure of Ba DHDPS was determined by molecular replacement using the coordinate set for the E. coli orthologue (PDB code 1DHP) as the search model. 3 Two structures have been determined to 1.9 and 2.2 A resolution in different orthorhombic crystal forms. Data collection, refinement, and model-building statistics are summarized in Table I. The structures in the two crystal forms are very similar and unless otherwise stated, the commentary here will refer to the structure refined to higher resolution
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