User:Kary Atkinson
From Proteopedia
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| - | Glutamine synthetase is composed of twelve subunits, formed as two hexameric rings. The two rings are held together by | + | Glutamine synthetase is composed of twelve subunits, formed as two hexameric rings. The two rings are held together by twelve central loops <insert wiki here showing the twelve central loops> which extend into the central region of the complex and include a small, four stranded β loop <insert wiki here showing β loops>. Each loop is 33 residues long and has a convex shape <insert wiki here showing a central loop between subunits>. The spatial orientation <insert wiki here showing the central cavity, loop orientation and distance between> of the loops has been found to be less accessible for interactions to occur, contributing to the catalytic activity of the enzyme. |
| - | As all other enzymes, Glutamine synthetase contains an active site. However, unlike other enzymes it also contains a “passive site” known as the central loop (residues 156-188) where covalent modifications, with inhibitory effects are found. This segment of the complex is subject to proteolysis by four secreted proteases, which | + | As all other enzymes, Glutamine synthetase contains an active site. However, unlike other enzymes it also contains a “passive site” known as the central loop (residues 156-188) where covalent modifications, with inhibitory effects are found. This segment of the complex is subject to proteolysis by four secreted proteases, which cleave specific residues <insert wiki here showing the cleavage sites> This characteristic is unique and exclusive to the central loop as no other glutamine synthetase sites away from the central loop are attacked, under the same mild conditions, by these enzymes. Another covalent modification known to occur at central loop of Glutamine synthetase is ADP-ribosylation of Arg-172 <insert wiki here showing the ADP-ribosylation site>. |
| - | It is evident then that the central loop of glutamine synthetase (residues 156-188) is an important component of the enzyme, anchoring the subunits together and providing the spatial orientation necessary for activity. Therefore the central loop contributes both to the function and stabilization of the quartenary structure of Glutamine synthetase. | + | It is evident then that the central loop of glutamine synthetase (residues 156-188) is an important component of the enzyme, anchoring the subunits together and providing the spatial orientation necessary for activity. Therefore the central loop contributes both to the function and stabilization, via hydrophic interactions <insert wiki here showing hydrophic interactions> and hydrogen bonding <insert wiki here showing hydrogen bonds>, of the quartenary structure of Glutamine synthetase. |
Revision as of 02:39, 18 December 2008
Example of backbone trace with ligand exercise 1 Ligand and Chain Selection With Labeling exercise 2 Active Site Residues exercise 3 Going Solo exercise 4
Introduction
Glutamine synthetase is composed of twelve subunits, formed as two hexameric rings. The two rings are held together by twelve central loops <insert wiki here showing the twelve central loops> which extend into the central region of the complex and include a small, four stranded β loop <insert wiki here showing β loops>. Each loop is 33 residues long and has a convex shape <insert wiki here showing a central loop between subunits>. The spatial orientation <insert wiki here showing the central cavity, loop orientation and distance between> of the loops has been found to be less accessible for interactions to occur, contributing to the catalytic activity of the enzyme.
As all other enzymes, Glutamine synthetase contains an active site. However, unlike other enzymes it also contains a “passive site” known as the central loop (residues 156-188) where covalent modifications, with inhibitory effects are found. This segment of the complex is subject to proteolysis by four secreted proteases, which cleave specific residues <insert wiki here showing the cleavage sites> This characteristic is unique and exclusive to the central loop as no other glutamine synthetase sites away from the central loop are attacked, under the same mild conditions, by these enzymes. Another covalent modification known to occur at central loop of Glutamine synthetase is ADP-ribosylation of Arg-172 <insert wiki here showing the ADP-ribosylation site>.
It is evident then that the central loop of glutamine synthetase (residues 156-188) is an important component of the enzyme, anchoring the subunits together and providing the spatial orientation necessary for activity. Therefore the central loop contributes both to the function and stabilization, via hydrophic interactions <insert wiki here showing hydrophic interactions> and hydrogen bonding <insert wiki here showing hydrogen bonds>, of the quartenary structure of Glutamine synthetase.
