The following instructions can be used to install a document to your Desktop:
- Click on a link below to download the course or tutorial package of interest.
- Open the downloaded .svlx file in MOE (through browser download dialog or drag-and-drop on MOE 3D window).
- A folder will be unpacked on the Desktop, and the document will open automatically.
Note:
- A functioning copy of MOE is required.
- The target directory may be overridden with the moe-rc setting 'course.download_dir'.
- Open .svlx file using MOE's File Open dialog if drag-and-drop is disabled.
molecular surfaces and maps – ligand interactions – conformational searching – ligand optimization – ligand selectivity – protein alignments and superposition
pharmacophore modeling – docking – fragment-based design – scaffold replacement – R-group screening – project search – protein-ligand interaction fingerprints (PLIF)
protein engineering – protein properties – developability – hot spot analysis – antibody modeling – humanization – molecular surfaces
alignments and superposition – loop and linker modeling – homology modeling – protein docking – solubility analysis – 2D hot spot mapping – protein ligand interaction fingerprints – QSAR modeling
R-group profiles and analysis – MOEsaic – mmp analysis – descriptor calculations – conformational searching – molecular alignments – pharmacophore modeling and searching – diversity analysis
MOE databases – calculated descriptors – fingerprints – QSAR modeling – binary QSAR – similarity searching – consensus modeling
SVL – programming language – create scripts – customize MOE
MOE project – database management – specialized protein families – project data search – PLIF analysis
macromolecular repository – display electron density – 3D query searching – pocket similarity – central repository – specialized protein databases
structure preparation – non-natural amino acids – conformational searching – distance restraints – peptide-protein docking – protein-ligand interaction fingerprints
homology modeling – loop modeling – loop conformational searching – sequence alignments – structure superposition – multimer alignments and superpositions
virtual screening compound libraries – descriptor, property and activity filtering – pharmacophores – docking – compound design
structure preparation – sidechain rotamer exploration – electron density maps – solvent analysis with 3D-RISM