Free learning resources
Quickly learn how to integrate Schrödinger technology into your research. From overviews to deep dives, you can find information about applications, workflows, and analysis here.
Quickly learn how to integrate Schrödinger technology into your research. From overviews to deep dives, you can find information about applications, workflows, and analysis here.
A free video series introducing the basics of using Maestro Bioluminate.
Self-guided step-by-step introductions to various workflows with example files for getting comfortable with Schrödinger tools.
Short video overviews of specific introductory and scientific topics, including summaries of new release features.
A one-page PDF that visually describes the panel or workflow.
Perform geometry optimizations on simple organic molecules and learn basics regarding functionals and basis sets.
Form protein-ligand interactions and optimize a hit molecule with the Ligand Designer.
Displace an unstable water an optimize a hit molecule with the Ligand Designer.
Create a homology model of TYK2, including a bound ligand, using the structure of JAK3 as a starting point. Then you will compare this homology model with the crystal structure for TYK2 bound to 4GIH ligand.
Use enumeration tools to design libraries for lead optimization of a CDK2 inhibitor
Build multiple homology models using a single template with the MSV.
Prepare and visualize an enzyme, analyze the sequence for residue conservation, and build a homology model with the MSV.
Build and refine a homology model with the MSV.
Annotate an antibody sequence with residue-level properties with the Multiple Sequence Viewer/Editor (MSV).
Build a chimeric homology model using the Multiple Sequence Viewer/Editor (MSV).
Perform rapid shape-based screening of a 20,000 compound chemical library with GPU Shape.
Dock a set of ligands that bind covalently to the receptor, using predefined or custom reaction chemistry.
Level up your skill set with hands-on, online molecular modeling courses. These self-paced courses cover a range of scientific topics and include access to Schrödinger software and support.
Connect your students to industry-leading molecular modeling software through a web-based platform. Incorporate molecular modeling in the classroom.