Mammalian 20S Proteasome

    A proteasome is a protein that is used in the cleavage of other proteins.  The degradation of a protein is important because it allows the cell to produce individual amino acids for new protein transcription, the removal of excess enzymes and the removal of transcription factors that are no longer needed.  The mammalian proteasome has a highly interesting 3-dimensional shape consisting of four heptameric rings stacked on each other.  Each ring contains seven smaller subunits or individual chains.  Each ring is presumed to be relatively similar to each other containing seven chains (subunits) that are the same.

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Space filling

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Backbone

Cartoon

Highlight Disulfide bridges

Hydrophobic Regions

        Hydrophobic regions shown in green.

Acidic regions

        Acidic regions shown in blue.

Basic Regions

        Basic regions shown in yellow.

Hydrophobic/ charged regions

        Hydrophobic= Green

        Acidic= Blue

        Basic= Yellow

Central Core (Press Twice)

        A key characteristic of the protein is its central core, this defines the barrel nature of the protein and controls its rigidity.

YDR Motif (Press Twice)

    The key highlighted amino acids are : Gly 8, Phe 9 and Asp 10. 

    Key amino acids are shown in yellow, with the gray showing the back bone structure of the protein.  The YDR motif is an important part of 20S proteasome.  Gly 8, Phe 9 and Asp 10 hold together the structural characteristics of the central core of the protein.  They are shown above in yellow to highlight the fact their rigid nature in this protein helps to prevent the collapse of the central core and give this protein its characteristic shape.

NOTE- only the amino acids on one of the seven side chains on a single ring are highlighted for ease of viewing purposes.  Each of the seven chains within each of the four rings contain this motif throughout the central region of the core for the proteasome.

YDR Motif Zoom Out(Press Twice)

Rings & Subunits

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Animation of Heptameric Rings and Chain Structure

    (Please let entire animation run before moving on, click again to watch again)

Exterior Ring

Interior Ring

Ext. Ring w/ Backbone

Int. Ring w/ Backbone

Int. Ring 2 w/ Backbone

Ext. Ring 2 w/ Backbone

Single Ring w/ Individual Chains Highlighted (Press Twice for alternate view)

        Each of the 4 major subunits break apart into 7 smaller chains that constitute the overall structure.  This view shows each single chain of the subunit highlighted.  Chain A is shown in the cartoon model, chain C in the spacefilling and Chain E in the wireframe.  Each chain is highlighted with a different color for ease of distinguishing differences.

Electrostatic Surface Potential