Indexado em
- Abra o Portão J
- Genamics JournalSeek
- CiteFactor
- cosmos SE
- Scimago
- Diretório de Periódicos de Ulrich
- Biblioteca de periódicos eletrônicos
- RefSeek
- Universidade de Hamdard
- EBSCO AZ
- Diretório de Indexação de Resumos para Periódicos
- OCLC- WorldCat
- Invocação Proquest
- Scholarsteer
- ESTRADA
- Biblioteca Virtual de Biologia (vifabio)
- publons
- Fundação de Genebra para Educação e Pesquisa Médica
- Google Scholar
Links Úteis
Compartilhe esta página
Folheto de jornal
Periódicos de Acesso Aberto
- Agro e Aquicultura
- Alimentos e Nutrição
- Bioinformática e Biologia de Sistemas
- Bioquímica
- Ciência de materiais
- Ciencias ambientais
- Ciências Clínicas
- Ciências Farmacêuticas
- Ciências gerais
- Ciências Médicas
- Cuidados de enfermagem e saúde
- Engenharia
- Genética e Biologia Molecular
- Gestão de negócios
- Imunologia e Microbiologia
- Neurociência e Psicologia
- Química
Abstrato
Insilco Modeling of Commonly Occurring Genetic Polymorphism of Human CYP3A4 on the Binding Affinity to UR-144
Amene Tesfaye and Libargachew Demlie
CYP3A4 accounts for about 30% in the human hepatic metabolism of xenobiotics. The defending mechanism of drug or xenobiotic metabolizing enzymes, particularly CYP superfamily has been found to be altered by both genetic polymorphisms and the environmental factors. The aim of this study was to examine UR-144 binding to CYP3A4 wild type and six different natural variants (I118V, R130Q, R162Q, D174H, T185S and L373F). A rigid ligand was docked by AutoDock Vina to flexible amino acid residues selected from the residues forming the binding pocket. The analysis of the docking results showed there is no difference in the binding affinities between the wild type and the natural variants. However, comparing the absolute binding affinity, the wild type (-12.8kcal/mol) has shown, among all, the lowest binding energy. Thus, this study depicts that the SNPs of CYP3A4 do not have any effects on the binding affinity of UR-144 to the active site.