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Full-Text Articles in Physical Sciences and Mathematics
The Aminopeptidase From Aeromonas Proteolytica: Structure And Mechanism Of Co-Catalytic Metal Centers Involved In Peptide Hydrolysis, Richard Holz
Richard C. Holz
Enzymes containing multi-metal active sites are central to numerous biological processes and, consequently, characterization of their structure and function is a problem of outstanding importance. One of the least-explored groups of enzymes is the hydrolases that contain dinuclear metal centers. These enzymes play key roles in carcinogenesis, tissue repair, and protein degradation processes. In addition, some of these enzymes can catalyze the hydrolysis of phosphorus(V) compounds found in nerve gases and agricultural neurotoxins. The determination of detailed reaction mechanisms for these enzymes is required for the design of highly potent, specific inhibitors that can function as potential pharmaceuticals. Hydrolytic enzymes …
The Aminopeptidase From Aeromonas Proteolytica Can Function As An Esterase, David Bienvenue, Rebecca Matthew, Dagmar Ringe, Richard Holz
The Aminopeptidase From Aeromonas Proteolytica Can Function As An Esterase, David Bienvenue, Rebecca Matthew, Dagmar Ringe, Richard Holz
Richard C. Holz
The aminopeptidase from Aeromonas proteolytica (AAP) can catalyze the hydrolysis of L-leucine ethyl ester (L-Leu-OEt) with a rate of 96±5 s–1 and a K m of 700 µM. The observed turnover number for L-Leu-OEt hydrolysis by AAP is similar to that observed for peptide hydrolysis, which is 67±5 s–1. The k cat values for the hydrolysis of L-Leu-OEt and L-leucine-p-nitroanilide (L-pNA) catalyzed by AAP were determined at different pH values under saturating substrate concentrations. Construction of an Arrhenius plot from the temperature dependence of AAP-catalyzed ester hydrolysis indicates that the rate-limiting step does not change as a function of temperature …
X-Ray Crystallographic Characterization Of The Co(Ii)-Substituted Tris-Bound Form Of The Aminopeptidase From Aeromonas Proteolytica, Petra Munih, Aaron Moulin, Carin Stamper, Brian Bennett, Dagmar Ringe, Gregory Petsko, Richard Holz
X-Ray Crystallographic Characterization Of The Co(Ii)-Substituted Tris-Bound Form Of The Aminopeptidase From Aeromonas Proteolytica, Petra Munih, Aaron Moulin, Carin Stamper, Brian Bennett, Dagmar Ringe, Gregory Petsko, Richard Holz
Richard C. Holz
The X-ray crystal structure of the Co(II)-loaded form of the aminopeptidase from Aeromonas proteolytica ([CoCo(AAP)]) was solved to 2.2 Å resolution. [CoCo(AAP)] folds into an α/β globular domain with a twisted β-sheet hydrophobic core sandwiched between α-helices, identical to [ZnZn(AAP)]. Co(II) binding to AAP does not introduce any major conformational changes to the overall protein structure and the amino acid residues ligated to the dicobalt(II) cluster in [CoCo(AAP)] are the same as those in the native Zn(II)-loaded structure with only minor perturbations in bond lengths. The Co(II)–Co(II) distance is 3.3 Å. Tris(hydroxymethyl)aminomethane (Tris) coordinates to the dinuclear Co(II) active site …
The 1.20 Å Resolution Crystal Structure Of The Aminopeptidase From Aeromonas Proteolytica Complexed With Tris: A Tale Of Buffer Inhibition, William Desmarais, David Bienvenue, Krzysztof Bzymek, Richard Holz, Gregory Petsko, Dagmar Ringe
The 1.20 Å Resolution Crystal Structure Of The Aminopeptidase From Aeromonas Proteolytica Complexed With Tris: A Tale Of Buffer Inhibition, William Desmarais, David Bienvenue, Krzysztof Bzymek, Richard Holz, Gregory Petsko, Dagmar Ringe
Richard C. Holz
The aminopeptidase from Aeromonas proteolytica (AAP) is a bridged bimetallic enzyme that removes the N-terminal amino acid from a peptide chain. To fully understand the metal roles in the reaction pathway of AAP we have solved the 1.20 Å resolution crystal structure of native AAP (PDB ID = 1LOK). The high-quality electron density maps showed a single Tris molecule chelated to the active site Zn2+, alternate side chain conformations for some side chains, a sodium ion that mediates a crystal contact, a surface thiocyanate ion, and several potential hydrogen atoms. In addition, the high precision of the atomic …