Abstract
NtdA from Bacillus subtilis is a sugar aminotransferase that catalyzes the pyridoxal phosphate-dependent equatorial transamination of 3-oxo-α-D-glucose 6-phosphate to form α-D-kanosamine 6-phosphate. The crystal structure of NtdA shows that NtdA shares the common aspartate aminotransferase fold (Type 1) with residues from both monomers forming the active site. The crystal structures of NtdA alone, co-crystallized with the product α-D-kanosamine 6-phosphate, and incubated with the amine donor glutamate reveal three key structures in the mechanistic pathway of NtdA. The structure of NtdA alone reveals the internal aldimine form of NtdA with the cofactor pyridoxal phosphate covalently attached to Lys-247. The addition of glutamate results in formation of pyridoxamine phosphate. Co-crystallization with kanosamine 6-phosphate results in the formation of the external aldimine. Only α-D-kanosamine 6-phosphate is observed in the active site of NtdA, not the β-anomer. A comparison of the structure and sequence of NtdA with other sugar aminotransferases enables us to propose that the VIβ family of aminotransferases should be divided into subfamilies based on the catalytic lysine motif.
Highlights
NtdA represents a novel aminotransferase recognizing a sugar 6-phosphate
We have shown that the ntd operon from Bacillus subtilis expresses three enzymes (NtdA, NtdB, and NtdC) that catalyze the biosynthesis of kanosamine from glucose 6-phosphate in a manner similar to the second pathway proposed for B. pumilus [1, 5, 6]
We present the structures of pyridoxal phosphate (PLP)- and pyridoxamine phosphate (PMP)-bound forms of NtdA, in addition to the external aldimine of PLP formed with the substrate ␣-Dkanosamine 6-phosphate (K6P)
Summary
Results: We have determined the structure of NtdA with pyridoxamine phosphate (the internal and external aldimines), identifying determinants of substrate specificity. NtdA from Bacillus subtilis is a sugar aminotransferase that catalyzes the pyridoxal phosphate-dependent equatorial transamination of 3-oxo-␣-D-glucose 6-phosphate to form ␣-Dkanosamine 6-phosphate. NtdA is a pyridoxal phosphate (PLP)3-dependent enzyme that we have recently shown to be a 3-oxo-D-glucose 6-phosphate:L-glutamate aminotransferase participating in the bio-. The second pathway involves the oxidation of glucose to 3-oxo-D-glucose, followed by transamination to kanosamine. We have shown that the ntd operon from Bacillus subtilis expresses three enzymes (NtdA, NtdB, and NtdC) that catalyze the biosynthesis of kanosamine from glucose 6-phosphate in a manner similar to the second pathway proposed for B. pumilus [1, 5, 6]. Genome sequencing revealed that Bacillus anthracis and Bacillus licheniformis contain orthologs of the NTD biosynthetic enzymes and its NOVEMBER 22, 2013 VOLUME 288 NUMBER 47
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