User:John S. de Banzie/Globular Protein
From Proteopedia
< User:John S. de Banzie(Difference between revisions)
m |
m (User:John S. de Banzie/Sandbox 1 moved to User:John S. de Banzie/Globular Protein: Finalized private page for teaching.) |
||
| (5 intermediate revisions not shown.) | |||
| Line 1: | Line 1: | ||
==Simple Example of Globular Protein Structure== | ==Simple Example of Globular Protein Structure== | ||
| - | <StructureSection load='1qgv' size='400' side='right' caption='U5 Spliceosomal protein, [[1qgv]]'> | + | <StructureSection load='1qgv' size='400' side='right' caption='Human U5 Spliceosomal protein U5-15kD, [[1qgv]]' scene='58/587846/1qgv_sf/2'> |
Most proteins are globular proteins. This page uses the human spliceosomal protein U5-15kD to illustrate some basic features of globular proteins. Specifically: | Most proteins are globular proteins. This page uses the human spliceosomal protein U5-15kD to illustrate some basic features of globular proteins. Specifically: | ||
| Line 10: | Line 10: | ||
3. Globular proteins have mixed secondary structure. | 3. Globular proteins have mixed secondary structure. | ||
| - | (U5-15kD is a component of the U5 small nuclear ribosomal protein particle (snRNP). This in turn is a component of the spliceosome, a | + | (U5-15kD is a component of the U5 small nuclear ribosomal protein particle (snRNP). This in turn is a component of the spliceosome, a macromolecular assembly involved in converting primary transcripts into functional mRNAs. U5-15kD was chosen for this page because it is small, but has all of the features necessary to illustrate the points being made.) |
| - | The space filling model of the protein shows that the protein is compact, globular, and has no signs of internal cavities. | + | The <scene name='58/587846/1qgv_sf/2'>space filling model</scene> of the protein shows that the protein is compact, globular, and has no signs of internal cavities. |
| - | Colouring the hydrophilic and hydrophobic residues shows that the interior of the protein is primarily hydrophobic (red) and the exterior is primarily hydrophilic (blue). | + | Colouring the <scene name='58/587846/1qgv_sf_pnp/2'>hydrophilic and hydrophobic residues</scene> shows that the interior of the protein is primarily hydrophobic (red) and the exterior is primarily hydrophilic (blue). |
| - | The cartoon view of the protein shows that the protein has mixed secondary structure. There are three segments of alpha-helix (magenta), six segments of beta-pleated sheet (gold), and some irregular regions (white). | + | The <scene name='58/587846/1qgv_ca/2'>cartoon view</scene> of the protein shows that the protein has mixed secondary structure. There are three segments of alpha-helix (magenta), six segments of beta-pleated sheet (gold), both parallel and anti-parallel, and some irregular regions (white). |
Current revision
Simple Example of Globular Protein Structure
| |||||||||||
