Publications

• A single mutation in the active site swaps the substrate specificity of N-acetyl-L-ornithine transcarbamylase and N-succinyl-L-ornithine transcarbamylase.

  Shi D., Yu X., Cabrera-Luque J., Chen T.Y., Roth L., Morizono H., Allewell N.M., Tuchman M.

  Transcarbamylases catalyze the transfer of the carbamyl group from carbamyl phosphate (CP) to an amino group of a second substrate such as aspartate, ornithine, or putrescine. Previously, structural determination of a transcarbamylase from Xanthomonas campestris led to the discovery of a novel N-a ... >> More

  Transcarbamylases catalyze the transfer of the carbamyl group from carbamyl phosphate (CP) to an amino group of a second substrate such as aspartate, ornithine, or putrescine. Previously, structural determination of a transcarbamylase from Xanthomonas campestris led to the discovery of a novel N-acetylornithine transcarbamylase (AOTCase) that catalyzes the carbamylation of N-acetylornithine. Recently, a novel N-succinylornithine transcarbamylase (SOTCase) from Bacteroides fragilis was identified. Structural comparisons of AOTCase from X. campestris and SOTCase from B. fragilis revealed that residue Glu92 (X. campestris numbering) plays a critical role in distinguishing AOTCase from SOTCase. Enzymatic assays of E92P, E92S, E92V, and E92A mutants of AOTCase demonstrate that each of these mutations converts the AOTCase to an SOTCase. Similarly, the P90E mutation in B. fragilis SOTCase (equivalent to E92 in X. campestris AOTCase) converts the SOTCase to AOTCase. Hence, a single amino acid substitution is sufficient to swap the substrate specificities of AOTCase and SOTCase. X-ray crystal structures of these mutants in complexes with CP and N-acetyl-L-norvaline (an analog of N-acetyl-L-ornithine) or N-succinyl-L-norvaline (an analog of N-succinyl-L-ornithine) substantiate this conversion. In addition to Glu92 (X. campestris numbering), other residues such as Asn185 and Lys30 in AOTCase, which are involved in binding substrates through bridging water molecules, help to define the substrate specificity of AOTCase. These results provide the correct annotation (AOTCase or SOTCase) for a set of the transcarbamylase-like proteins that have been erroneously annotated as ornithine transcarbamylase (OTCase, EC 2.1.3.3). << Less

  Protein Sci. 16:1689-1699(2007) [PubMed] [EuropePMC]

• Structure and catalytic mechanism of a novel N-succinyl-L-ornithine transcarbamylase in arginine biosynthesis of Bacteroides fragilis.

  Shi D., Morizono H., Cabrera-Luque J., Yu X., Roth L., Malamy M.H., Allewell N.M., Tuchman M.

  A Bacteroides fragilis gene (argF'(bf)), the disruption of which renders the bacterium auxotrophic for arginine, was expressed and its recombinant protein purified and studied. The novel protein catalyzes the carbamylation of N-succinyl-L-ornithine but not L-ornithine or N-acetyl-L-ornithine, form ... >> More

  A Bacteroides fragilis gene (argF'(bf)), the disruption of which renders the bacterium auxotrophic for arginine, was expressed and its recombinant protein purified and studied. The novel protein catalyzes the carbamylation of N-succinyl-L-ornithine but not L-ornithine or N-acetyl-L-ornithine, forming N-succinyl-L-citrulline. Crystal structures of this novel transcarbamylase complexed with carbamyl phosphate and N-succinyl-L-norvaline, as well as sulfate and N-succinyl-L-norvaline have been determined and refined to 2.9 and 2.8 A resolution, respectively. They provide structural evidence that this protein is a novel N-succinyl-L-ornithine transcarbamylase. The data provided herein suggest that B. fragilis uses N-succinyl-L-ornithine rather than N-acetyl-L-ornithine for de novo arginine biosynthesis and therefore that this pathway in Bacteroides is different from the canonical arginine biosynthetic pathway of most organisms. Comparison of the structures of the new protein with those recently reported for N-acetyl-L-ornithine transcarbamylase indicates that amino acid residue 90 (B. fragilis numbering) plays an important role in conferring substrate specificity for N-succinyl-L-ornithine versus N-acetyl-L-ornithine. Movement of the 120 loop upon substrate binding occurs in N-succinyl-L-ornithine transcarbamylase, while movement of the 80 loop and significant domain closure take place as in other transcarbamylases. These findings provide new information on the putative role of succinylated intermediates in arginine biosynthesis and on the evolution of transcarbamylases. << Less

  J. Biol. Chem. 281:20623-20631(2006) [PubMed] [EuropePMC]