Saltar para:
Logótipo
Você está em: Início > Publicações > Visualização > Modelling beta-1,3-exoglucanase-saccharide interactions: Structure of the enzyme-substrate complex and enzyme binding to the cell wall

Modelling beta-1,3-exoglucanase-saccharide interactions: Structure of the enzyme-substrate complex and enzyme binding to the cell wall

Título
Modelling beta-1,3-exoglucanase-saccharide interactions: Structure of the enzyme-substrate complex and enzyme binding to the cell wall
Tipo
Artigo em Revista Científica Internacional
Ano
2009
Autores
Sara A Moura Tamames
(Autor)
Outra
A pessoa não pertence à instituição. A pessoa não pertence à instituição. A pessoa não pertence à instituição. Sem AUTHENTICUS Sem ORCID
Maria J Ramos
(Autor)
FCUP
Revista
Vol. 27
Páginas: 908-920
ISSN: 1093-3263
Editora: Elsevier
Classificação Científica
FOS: Ciências exactas e naturais > Ciências da computação e da informação
Outras Informações
ID Authenticus: P-003-JQY
Abstract (EN): Glycoside hydrolases are a class of enzymes that break/form the bond between sugar monomers (monosaccharides). Candida albicans's beta-1,3-exoglucanase (Exg), a family 5 glycosidase, belongs to this class of enzymes. This small protein is an ideal computational model for its family of enzymes and was used here to create several enzyme-substrate models starting from a crystallographic glucanase-inhibitor structure. A series of enzyme-substrate complexes were generated using molecular docking, ranging from Exg-glucose (Exg-1Glc) to Exg-laminarihexaose (Exg-6Glc). Structure optimizations followed by molecular dynamics provided a picture of the way the enzyme and substrates interact. Molecular dynamics was conducted for each complex to assess the flexibility of the substrate, of the enzyme as a whole, and of enzyme-substrate interactions. The enzyme overall conformation was found to be quite rigid, although most enzyme residues increase mobility upon substrate binding. However, two surface loops stand out by having large fluctuations and becoming less flexible when the substrates were bound. These data point to a possible biological role for the mentioned loops, corresponding to amino acids 36-47 and 101-106. We propose that these loops could bind the enzyme to a glucan chain in the cell wall. The polysaccharide and enzyme structures have very complementary shapes and form numerous interactions; so it appears likely that the flexible loops connect the enzyme to the cell wall and allow it to navigate the wall to shape glucan structure.
Idioma: Inglês
Tipo (Avaliação Docente): Científica
Contacto: pafernan@fc.up.pt
Nº de páginas: 13
Documentos
Não foi encontrado nenhum documento associado à publicação.
Publicações Relacionadas

Dos mesmos autores

Mechanistic Studies on the Formation of Glycosidase-Substrate and Glycosidase-Inhibitor Covalent Intermediates (2008)
Artigo em Revista Científica Internacional
Natercia F Bras; Sara A Moura Tamames; Pedro A Fernandes; Maria J Ramos

Da mesma revista

Theoretical studies on the binding of rhenium(I) complexes to inducible nitric oxide synthase (2013)
Artigo em Revista Científica Internacional
Bruno L Oliveira; Irina S Moreira; Pedro A Fernandes; Maria J Ramos; Isabel Santos; Joao D G Correia
New in silico insights into the inhibition of RNAP II by alpha-amanitin and the protective effect mediated by effective antidotes (2014)
Artigo em Revista Científica Internacional
Juliana Garcia; Alexandra T P Carvalho; Daniel F A R Dourado; Paula Baptista; Maria de Lourdes Bastos; Felix Carvalho
Modelling beta-1,3-exoglucanase-saccharide interactions: Structure of the enzyme-substrate complex and enzyme binding to the cell wall (2009)
Artigo em Revista Científica Internacional
Moura Tamames, S; Ramos, MJ; Alexandrino A Fernades
Is the conformational flexibility of piperazine derivatives important to inhibit HIV-1 replication? (2013)
Artigo em Revista Científica Internacional
Catia Teixeira; Serradji, N; Amroune, S; Storck, K; Rogez Kreuz, C; Clayette, P; Barbault, F; Maurel, F
Drug design: New inhibitors for HIV-1 protease based on Nelfinavir as lead (2007)
Artigo em Revista Científica Internacional
Perez, MAS; Fernandes, PA; Ramos, MJ
Recomendar Página Voltar ao Topo
Copyright 1996-2024 © Faculdade de Engenharia da Universidade do Porto  I Termos e Condições  I Acessibilidade  I Índice A-Z  I Livro de Visitas
Página gerada em: 2024-11-03 às 05:53:36 | Política de Utilização Aceitável | Política de Proteção de Dados Pessoais | Denúncias