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1.
Biochemistry ; 47(29): 7673-83, 2008 Jul 22.
Artigo em Inglês | MEDLINE | ID: mdl-18576673

RESUMO

The chemical properties of zinc make it an ideal metal to study the role of coordination strain in enzymatic rate enhancement. The zinc ion and the protein residues that are bound directly to the zinc ion represent a functional charge/dipole complex, and polarization of this complex, which translates to coordination distortion, may tune electrophilicity, and hence, reactivity. Conserved protein residues outside of the charge/dipole complex, such as second-shell residues, may play a role in supporting the electronic strain produced as a consequence of functional polarization. To test the correlation between charge/dipole polarity and ligand binding affinity, structure-function studies were carried out on the dizinc aminopeptidase from Vibrio proteolyticus. Alanine substitutions of S228 and M180 resulted in catalytically diminished enzymes whose crystal structures show very little change in the positions of the metal ions and the protein residues. However, more detailed inspections of the crystal structures show small positional changes that account for differences in the zinc ion coordination geometry. Measurements of the binding affinity of leucine phosphonic acid, a transition state analogue, and leucine, a product, show a correlation between coordination geometry and ligand binding affinity. These results suggest that the coordination number and polarity may tune the electrophilicity of zinc. This may have provided the evolving enzyme with the ability to discriminate between reaction coordinate species.


Assuntos
Aminopeptidases/química , Proteínas de Bactérias/química , Metionina/química , Serina/química , Zinco/química , Aminopeptidases/metabolismo , Proteínas de Bactérias/metabolismo , Sítios de Ligação , Cristalografia por Raios X , Cinética , Metionina/metabolismo , Modelos Moleculares , Serina/metabolismo , Relação Estrutura-Atividade , Zinco/metabolismo
2.
Protein Eng Des Sel ; 30(3): 271-278, 2017 03 01.
Artigo em Inglês | MEDLINE | ID: mdl-28338942

RESUMO

Benzaldehyde dehydrogenase from Pseudomonas putida (PpBADH) belongs to the Class 3 aldehyde dehydrogenase (ALDH) family. The Class 3 ALDHs are unusual in that they are generally dimeric (rather than tetrameric), relatively non-specific and utilize both NAD+ and NADP+. To date, X-ray structures of three Class 3 ALDHs have been determined, of which only two have cofactor bound, both in the NAD+ form. Here we report the crystal structure of PpBADH in complex with NADP+ and a thioacyl intermediate adduct. The overall architecture of PpBADH resembles that of most other members of the ALDH superfamily, and the cofactor binding residues are well conserved. Conversely, the pattern of cofactor binding for the rat Class 3 ALDH differs from that of PpBADH and other ALDHs. This has been interpreted in terms of a different mechanism for the rat enzyme. Comparison with the PpBADH structure, as well as multiple sequence alignments, suggest that one of two conserved glutamates, at positions 215 (209 in rat) and 337 (333 in rat), would act as the general base necessary to hydrolyze the thioacyl intermediate. While the latter is the general base in the rat Class 3 ALDH, site-specific mutagenesis indicates that Glu215 is the likely candidate for PpBADH, a result more typical of the Class 1 and 2 ALDH families. Finally, this study shows that hydride transfer is not rate limiting, lending further credence to the suggestion that PpBADH is more similar to the Class 1 and 2 ALDHs than it is to other Class 3 ALDHs.


Assuntos
Aldeído Oxirredutases/química , NADP/química , Pseudomonas putida/enzimologia , Aldeído Oxirredutases/genética , Substituição de Aminoácidos , Animais , Mutagênese Sítio-Dirigida , Mutação de Sentido Incorreto , NADP/genética , Domínios Proteicos , Pseudomonas putida/genética , Ratos
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