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Homology Modeling
Homology Modeling
Structural insights regarding an insecticidal Talisia esculenta protein and its biotechnological potential for Diatraea saccharalis larval control
Physiology / Biotechnology / Diet / Lepidoptera / Homology Modeling / Insecticides / Phylogeny / Sequence alignment / Animals / Trypsin / Sodium Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis / Larva / Amino Acid Sequence / In Silico / Larval Development / Binding Site / Biochemistry and cell biology / Molecular Sequence Data / Insecticides / Phylogeny / Sequence alignment / Animals / Trypsin / Sodium Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis / Larva / Amino Acid Sequence / In Silico / Larval Development / Binding Site / Biochemistry and cell biology / Molecular Sequence Data
A Novel Extracytoplasmic Function (ECF) Sigma Factor Regulates Virulence in Pseudomonas aeruginosa
Microbiology / Immunology / Medical Microbiology / Fluorescence Microscopy / Immunohistochemistry / Danio rerio / Protein Stability / Homology Modeling / Humans / Animals / Quorum Sensing / Iron / Pseudomonas aeruginosa / Microarray Analysis / Reproducibility of Results / Virulence factor / Zebrafish / Pseudomonas Aeruginosa / Virulence Factors / Embryos / Cell Surface Markers / Danio rerio / Protein Stability / Homology Modeling / Humans / Animals / Quorum Sensing / Iron / Pseudomonas aeruginosa / Microarray Analysis / Reproducibility of Results / Virulence factor / Zebrafish / Pseudomonas Aeruginosa / Virulence Factors / Embryos / Cell Surface Markers
A Novel Extracytoplasmic Function (ECF) Sigma Factor Regulates Virulence in Pseudomonas aeruginosa
Microbiology / Immunology / Medical Microbiology / Fluorescence Microscopy / Immunohistochemistry / Danio rerio / Protein Stability / Homology Modeling / Humans / Animals / Quorum Sensing / Iron / Pseudomonas aeruginosa / Microarray Analysis / Reproducibility of Results / Virulence factor / Zebrafish / Pseudomonas Aeruginosa / Virulence Factors / Embryos / Cell Surface Markers / Danio rerio / Protein Stability / Homology Modeling / Humans / Animals / Quorum Sensing / Iron / Pseudomonas aeruginosa / Microarray Analysis / Reproducibility of Results / Virulence factor / Zebrafish / Pseudomonas Aeruginosa / Virulence Factors / Embryos / Cell Surface Markers
The Protein Model Portal
Computational Biology / Structural Genomics / Structural / Homology Modeling / Biological Sciences / Software / Environmental Sciences / Humans / Sequence alignment / Computer Model / Protein structure / Quality assessment / Proteins / Computer User Interface Design / Protein Sequence Analysis / Very high throughput / Comparative modeling / Amino Acid Sequence / Model Building / Structure Determination / Internet / Building Model / Structural model / Software / Environmental Sciences / Humans / Sequence alignment / Computer Model / Protein structure / Quality assessment / Proteins / Computer User Interface Design / Protein Sequence Analysis / Very high throughput / Comparative modeling / Amino Acid Sequence / Model Building / Structure Determination / Internet / Building Model / Structural model
A single amino acid residue, Ala 105, confers 16α-hydroxylase activity to human cytochrome P450 17α-hydroxylase/17,20 lyase
Homology Modeling / Cercopithecus aethiops / Progesterone / Humans / Sequence alignment / Animals / Iron / Enzyme / Goats / Amino Acid Profile / Alanine / Species Specificity / Amino Acid Sequence / Amino Acid Substitution Rates / Sus Scrofa / Protein Binding / Biochemistry and cell biology / Animals / Iron / Enzyme / Goats / Amino Acid Profile / Alanine / Species Specificity / Amino Acid Sequence / Amino Acid Substitution Rates / Sus Scrofa / Protein Binding / Biochemistry and cell biology
Major human γ-aminobutyrate transporter: In silico prediction of substrate efficacy
Molecular Dynamics / Homology Modeling / Crystal structure / Humans / Computer Simulation / Ligand Binding / Substrate Specificity / Protein Conformation / In Silico / Protein Binding / Antiepileptic Drug / Molecular Dynamic Simulation / Gamma-Aminobutyric Acid / Biochemistry and cell biology / Ligand Binding / Substrate Specificity / Protein Conformation / In Silico / Protein Binding / Antiepileptic Drug / Molecular Dynamic Simulation / Gamma-Aminobutyric Acid / Biochemistry and cell biology
Major human γ-aminobutyrate transporter: In silico prediction of substrate efficacy
Molecular Dynamics / Homology Modeling / Crystal structure / Humans / Computer Simulation / Ligand Binding / Substrate Specificity / Protein Conformation / In Silico / Protein Binding / Antiepileptic Drug / Molecular Dynamic Simulation / Gamma-Aminobutyric Acid / Biochemistry and cell biology / Ligand Binding / Substrate Specificity / Protein Conformation / In Silico / Protein Binding / Antiepileptic Drug / Molecular Dynamic Simulation / Gamma-Aminobutyric Acid / Biochemistry and cell biology
Major human γ-aminobutyrate transporter: In silico prediction of substrate efficacy
Molecular Dynamics / Homology Modeling / Crystal structure / Humans / Computer Simulation / Ligand Binding / Substrate Specificity / Protein Conformation / In Silico / Protein Binding / Antiepileptic Drug / Molecular Dynamic Simulation / Gamma-Aminobutyric Acid / Biochemistry and cell biology / Ligand Binding / Substrate Specificity / Protein Conformation / In Silico / Protein Binding / Antiepileptic Drug / Molecular Dynamic Simulation / Gamma-Aminobutyric Acid / Biochemistry and cell biology
AspergillusnidulansswoF Encodes an N-Myristoyl Transferase
Homology Modeling / Biological Sciences / Crystal structure / Sequence alignment / Candida albicans / Hydrogen Bond / Aspergillus Nidulans / Molecular cloning / Protein Sequence Analysis / Filamentous fungi / Amino Acid Sequence / Cell Wall / Binding Site / Temperature Sensitive Polymer / Eukaryotic Cell / Myristic acid / Molecular Sequence Data / Hydrogen Bond / Aspergillus Nidulans / Molecular cloning / Protein Sequence Analysis / Filamentous fungi / Amino Acid Sequence / Cell Wall / Binding Site / Temperature Sensitive Polymer / Eukaryotic Cell / Myristic acid / Molecular Sequence Data
Aspergillus nidulans swoF encodes an N-myristoyl transferase
Homology Modeling / Biological Sciences / Crystal structure / Sequence alignment / Candida albicans / Hydrogen Bond / Aspergillus Nidulans / Molecular cloning / Protein Sequence Analysis / Filamentous fungi / Amino Acid Sequence / Cell Wall / Binding Site / Temperature Sensitive Polymer / Eukaryotic Cell / Myristic acid / Molecular Sequence Data / Hydrogen Bond / Aspergillus Nidulans / Molecular cloning / Protein Sequence Analysis / Filamentous fungi / Amino Acid Sequence / Cell Wall / Binding Site / Temperature Sensitive Polymer / Eukaryotic Cell / Myristic acid / Molecular Sequence Data
The Protein Model Portal
Computational Biology / Structural Genomics / Structural / Homology Modeling / Biological Sciences / Software / Environmental Sciences / Humans / Sequence alignment / Computer Model / Protein structure / Quality assessment / Proteins / Computer User Interface Design / Protein Sequence Analysis / Very high throughput / Comparative modeling / Amino Acid Sequence / Model Building / Structure Determination / Internet / Building Model / Structural model / Molecular Sequence Data / Software / Environmental Sciences / Humans / Sequence alignment / Computer Model / Protein structure / Quality assessment / Proteins / Computer User Interface Design / Protein Sequence Analysis / Very high throughput / Comparative modeling / Amino Acid Sequence / Model Building / Structure Determination / Internet / Building Model / Structural model / Molecular Sequence Data
A structural model for human dihydrolipoamide dehydrogenase
Homology Modeling / Biological Sciences / Humans / Sequence alignment / Mathematical Sciences / Glutathione / Proteins / Protein Conformation / Amino Acid Sequence / Structure Function / Flavoprotein / Structural model / Molecular Sequence Data / Glutathione / Proteins / Protein Conformation / Amino Acid Sequence / Structure Function / Flavoprotein / Structural model / Molecular Sequence Data
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