Structural biology

Author(s): 
Joanna Argasinska

Introduction to structural biology and related resources at EMBL-EBI.

Author(s): 
Sanchayita Sen

This course will show you how to explore the structural information in a PDB entry using the Protein Data Bank in Europe (PDBe) - EMBL-EBI's resource for the collection, organisation and dissemination of data on biological macromolecular...

Author(s): 
Sameer Velankar

This quick tour provides a brief introduction to the Protein Data Bank in Europe (PDBe), EMBL-EBI's resource for the collection, organisation and dissemination of data on biological macromolecular structures.

Author(s): 
David Armstrong

The Protein Data Bank in Europe (PDBe) is a free and easily accessible resource for biological macromolecular structures. We collect, organise and disseminate data in both the Protein...

Author(s): 
Sanchayita Sen

This course will show you how to search the Protein Data Bank in Europe (PDBe) - EMBL-EBI's resource for the collection, organisation and dissemination of data on biological macromolecular structures. The course contains the following mini-...

Author(s): 
Gary Battle

PDBeChem allows you to search for chemical components (ligands, small molecules and monomers) that appear in PDB entries, and discover which protein structures bind a particular ligand. This course will show you how to use PDBeChem and what you...

Author(s): 
Gary Battle

PDBeFold can be used to identify structural homologues in the PDB. PDBe's Secondary Structure Matching service (SSM) allows you to interactively compare, align and superimpose protein structures in 3D. This course will show you how to use...

Author(s): 
Gary Battle

PDBePISA allows you to explore macromolecular (protein, DNA/RNA and ligand) interfaces and predict the quaternary structure of your protein. This course will show you how to use PDBePISA and what you can do with it.

An undergraduate...

Author(s): 
Martyn Winn

This course provides a basic introduction of volume matching techniques in the field of structural bioinformatics. It explains the use of electron microscopy (EM) and electron tomography (ET) data in creating 3D volume maps of proteins, and the...