Crystal Structure of a Bacterial Lipase fromChromobacterium viscosumATCC 6918 Refined at 1.6 Å Resolution

Abstract The crystal structure of a lipase from the bacterium Chromobacterium viscosum ATCC 6918 (CVL) has been determined by isomorphous replacement and refined at 1.6 A resolution to an R -factor of 17.8%. The lipase has the overall topology of an α/β type protein, which was also found for previously determined lipase structures. The catalytic triad of the active center consists of the residues Ser87, Asp263 and His285. These residues are not exposed to the solvent, but a narrow channel connects them with the molecular surface. This conformation is very similar to the previously reported closed conformation of Pseudomonas glumae lipase (PGL), but superposition of the two lipase structures reveals several conformational differences. r.m.s. deviations greater than 2 A are found for the C α -atoms of the polypeptide chains from His15 to Asp28, from Leu49 to Ser54 and from Lys128 to Gln158. Compared to the PGL structure in the CVL structure, three α-helical fragments are shorter, one β-strand is longer and an additional antiparallel β-sheet is found. In contrast to PGL, CVL displays an oxyanion hole, which is stabilized by the amide nitrogen atoms of Leu17 and Gln88, and a cis -peptide bond between Gln291 and Leu292. CVL contains a Ca 2 + , like the PGL, which is coordinated by four oxygen atoms from the protein and two water molecules.