Easy-to-Use Graphical Interface Active Site Detection and Analysis Molecular Surfaces and Electron Density Visualize Non-bonded Interactions Publication-Quality Images and Movies GPU Accelerated 3D Stereo Graphics Mixed Virtual Reality and 3D Printing
- Operating Environment For Mac Computers
- Operating Environment For Mac Catalina
- Mac Operating System Upgrade
Environment: Mac OS X Solution: While Revit does not currently have a native Macintosh version, there are still a few options that will allow you to use Revit when working with a Macintosh system: Bootcamp: This allows you to boot your system into a Windows operating system. Setting Up a Mac OS Development Environment. Bringing it up because unequivocally the best possible Mac OS cure-all is Erasing and Reinstalling a fresh copy of your Mac’s operating system. Switching between Mac and Windows Operating System:- You can go back and forth between macOS and Windows on your Mac, but you can’t run both OS simultaneously under Boot Camp. Instead, you have to boot one operating system or the other — thus, the name Boot Camp. Restart your Mac, and hold down the Option key until icons for each operating. Apple OS X, Microsoft Windows, and the various forms of Linux (including Android) now command the vast majority of the modern operating system market. The Parts of an Operating System. Operating systems are built out of two main parts: The kernel; System programs. The kernel is the heart of the operating system. It is the first program loaded.
Streamlined Interface for Ligand Design Active Site Detection and Analysis Interactive Ligand Design in the Pocket Protein-Ligand Interaction Diagrams Predict Water Sites and Energetics Induced-Fit Docking Link, Grow and Replace Fragments
Structure-Based Protein Engineering Assess Liabilities and Developability Optimize Affinity, Stability and Solubility High-Throughput Antibody Modeling Generate Virtual Libraries Protein Docking and Epitope Mapping Model ADCs and Fusion Proteins
SAR and SPR Visualization Ligand Analytics Matched Molecular Pairs R-Group Analysis and Profiling Substructure and Similarity Search Design Novel Virtual Compounds Document Ideas and Notes
Conformation Generation and Clustering Align and Superpose Small Molecules MOEsaic for SAR Exploration Pharmacophore Elucidation and Screening Generate QSAR Models – MOE Descriptors Torsion Profiles for Conformation Analysis Combinatorial Library Enumeration
Visualize Proteins, Patches, and Interfaces Predict 3D Protein Structure from Sequence Build DNA/RNA Models Explore Mutations and Rotamers Molecular Dynamics Simulations Loop/Linker Searching and Sampling Protein-Protein Docking
3D Pharmacophore Screening Shape and Feature Constraints Small Molecule Docking 2D and 3D Fingerprint Screening Scaffold and Fragment Replacement Conformation Databases Reaction-Based Library Design
Scaffold Hopping Fragment Linking and Growing Medicinal Chemistry Transformations Combinatorial Library Enumeration Multi-Fragment Search Ligand Hybridization (BREED) Custom Fragment Libraries
Multiple Sequence and Structure Alignment Annotate 3D Properties onto Sequences Create and Search Protein Family Databases Mine Structural Data Analyze Conserved Residues Generate Clustered Phylogenetic Trees Antibody and TCR Structural Databases
Operating Environment For Mac Computers
Molecular Mechanics and Dynamics Automated Structure Preparation Free Energy Calculations Flexible Alignment of Multiple Molecules Conformational Analysis – LowModeMD Torsion Scan and Analysis QM-Based NMR, IR and VCD Spectra
Macrocyclic and Linear Peptides Identify Peptide-Protein Contacts Conformational Searching Enumerate Non–Natural Peptide Libraries Structure-Based Peptide Design Optimize Peptide Properties Peptide Docking
Plot Electron Densities and Difference Maps Display Crystal Lattices and Contacts Prediction of Water Positions Electron Density-Guided Docking Create Aligned Protein Family Databases Homology Modeling for Molecular Replacement Health-Check of Protein Structures
400+ 2D and 3D Molecular Descriptors pKa Prediction and Protomer Generation Linear QSAR/QSPR Bayesian Classification / Machine Learning MOEsaic – Matched Molecular Pairs Focused Combinatorial Library Design Chemical Similarity, Diversity and Clustering
Operating Environment For Mac Catalina
Laptop – Cluster – Cloud – Pipeline Windows – Linux – macOS Integrated Programming Environment (SVL) 3rd Party Software Integration Custom Applications and User Profiles Web Integration, Web Services, API HTTP Listener for Remote Control
Mac Operating System Upgrade
RCSB Compliant Repository Browser Interface – 3D Visualization Automated Project Database Curation 3D Interaction Search and Statistics Pocket Similarity Search Protein Structure Alignment Standard IT Infrastructure