Sandbox Reserved 804
From Proteopedia
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This is the secondary structure of TIM with <scene name='56/563216/Hydrogen_bonding/1'>Hydrogen Bond</scene> interactions between the backbone. H Bonds are depicted in orange. Some hydrogen bonds are shown floating above the structure because they represent the hydrogen bonds in chain B. Disulfide bonds do not exist in this structure. | This is the secondary structure of TIM with <scene name='56/563216/Hydrogen_bonding/1'>Hydrogen Bond</scene> interactions between the backbone. H Bonds are depicted in orange. Some hydrogen bonds are shown floating above the structure because they represent the hydrogen bonds in chain B. Disulfide bonds do not exist in this structure. | ||
| - | This image depicts the <scene name='56/563216/Hydrophobic_interactions/1'>Hydrophobic Interactions</scene> within TIM. | + | This image depicts the <scene name='56/563216/Hydrophobic_interactions/1'>Hydrophobic Interactions</scene> within TIM in grey. The <scene name='56/563216/Hydrophilic_interactions/1'>Hydrophilic Interactions</scene> are displayed in blue. Ignore the hydrophilic interactions shown floating above the structure because they represent the hydrophilic interactions in chain B. |
Revision as of 18:34, 16 October 2013
| This Sandbox is Reserved from Oct 10, 2013, through May 20, 2014 for use in the course "CHEM 410 Biochemistry 1 and 2" taught by Hanna Tims at the Messiah College. This reservation includes Sandbox Reserved 780 through Sandbox Reserved 807. |
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Triose phosphate isomerase (TIM) is an enzyme that catalyzes the reaction of D-glyceraldehyde 3-phosphate to glycerone phosphate. It binds with the ligand 2-Phosphoglycolic acid (PGA).This is the of TIM.
This is in TIM.
This is the . The indigo represents the alpha helices and the violet represents the beta sheets.
This is the secondary structure of TIM with interactions between the backbone. H Bonds are depicted in orange. Some hydrogen bonds are shown floating above the structure because they represent the hydrogen bonds in chain B. Disulfide bonds do not exist in this structure.
This image depicts the within TIM in grey. The are displayed in blue. Ignore the hydrophilic interactions shown floating above the structure because they represent the hydrophilic interactions in chain B.
