Documentos de Scotti M.T. | REDI

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Mostrando 4 resultados de: 4

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Palabras Claves: "virtual design"

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Current Topics in Medicinal Chemistry(1)

Frontiers in Chemistry(1)

Molecular Diversity(1)

SAR and QSAR in Environmental Research(1)

Área temáticas

Farmacología y terapéutica(3)

Ciencias de la computación(1)

Fisiología humana(1)

Ingeniería química(1)

Área de conocimiento

Farmacología(2)

Relación cuantitativa estructura-actividad(2)

Descubrimiento de fármacos(1)

Año de Publicación

Origen

Palabras Claves

Artificial Neural Network(4)

Multilayer Perceptron(2)

Antihypertensive(1)

Cell-based multi-target QSAR model for design of virtual versatile inhibitors of liver cancer cell lines

Abstract: Liver cancers are one of the leading fatal diseases among malignant neoplasms. Current chemotherapeu

Palabras claves:

ANTICANCER, Artificial Neural Network, Fragment, Liver cancer, multi-target, QSAR, virtual design

Alejandro Speck-Planche, Kleandrova V.V., Nayarisseri A., Scotti L., Scotti M.T.

Multi-target Drug Discovery via PTML Modeling: Applications to the Design of Virtual Dual Inhibitors of CDK4 and HER2

Abstract: Background: Cyclin-dependent kinase 4 (CDK4) and the human epidermal growth factor receptor 2 (HER2)

Palabras claves:

Artificial Neural Network, Cáncer, Fragment, Local contributions, Pseudo-linear equation, PTML model, virtual design

Alejandro Speck-Planche, Kleandrova V.V., Scotti L., Scotti M.T.

PTML modeling for peptide discovery: in silico design of non-hemolytic peptides with antihypertensive activity

Abstract: Abstract: Hypertension is a medical condition that affects millions of people worldwide. Despite the

Palabras claves:

Antihypertensive, Artificial Neural Network, hemotoxicity, Multilayer Perceptron, peptide, PTML, topological indices, virtual design

Alejandro Speck-Planche, Kleandrova V.V., Rojas-Vargas J.A., Scotti M.T.

QSAR Modeling for Multi-Target Drug Discovery: Designing Simultaneous Inhibitors of Proteins in Diverse Pathogenic Parasites

Abstract: Parasitic diseases remain as unresolved health issues worldwide. While for some parasites the treatm

Palabras claves:

Artificial Neural Network, docking, Fragment, mt-QSAR, multi-target inhibitor, Multilayer Perceptron, parasites, virtual design

Alejandro Speck-Planche, Bezerra Mendonça Junior F.J., Kleandrova V.V., Muratov E., Scotti L., Scotti M.T.