Sandbox Reserved 802
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<scene name='56/563214/Aldolase/1'>Fructose-1,6-bisphosphate aldolase</scene> can be observed. Aldolase is an enzyme that is active during glycolysis, which is an overall series of reactions that produces cellular energy (ATP). Specifically, aldolase catalyzes an aldol cleavage reaction that hydrolyzes fructose 1,6-bisphosphate. It is a tetrameter (four subunits)composed of alpha helices and beta sheets (<scene name='56/563214/A2_-_helices_and_sheets/1'>secondary structure</scene>). Please note that alpha helices are observed in blue, and beta sheets are in yellow. The majority of the helices are located on the surface (outside) of the enzyme, where as most of the sheets are found in the interior. Most likely, polar amino acids are located on the peripheral helices, while hydrophobic or paired-polar amino acids are found within the beta sheet. | <scene name='56/563214/Aldolase/1'>Fructose-1,6-bisphosphate aldolase</scene> can be observed. Aldolase is an enzyme that is active during glycolysis, which is an overall series of reactions that produces cellular energy (ATP). Specifically, aldolase catalyzes an aldol cleavage reaction that hydrolyzes fructose 1,6-bisphosphate. It is a tetrameter (four subunits)composed of alpha helices and beta sheets (<scene name='56/563214/A2_-_helices_and_sheets/1'>secondary structure</scene>). Please note that alpha helices are observed in blue, and beta sheets are in yellow. The majority of the helices are located on the surface (outside) of the enzyme, where as most of the sheets are found in the interior. Most likely, polar amino acids are located on the peripheral helices, while hydrophobic or paired-polar amino acids are found within the beta sheet. | ||
==Hydrogen and Disulfide Bonds== | ==Hydrogen and Disulfide Bonds== | ||
| - | The <scene name='56/563214/ | + | The <scene name='56/563214/A3_hydrogen_bonds/1'>hydrogen and disulfide bonds</scene>> for aldolase allow the protein proper stability. Hydrogen bonds are in red (there are plenty of them), and disfulfide bonds would appear as black. However, please note that there are no observable disulfide bonds in this picture. |
Revision as of 18:03, 12 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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Introduction and General Structure
can be observed. Aldolase is an enzyme that is active during glycolysis, which is an overall series of reactions that produces cellular energy (ATP). Specifically, aldolase catalyzes an aldol cleavage reaction that hydrolyzes fructose 1,6-bisphosphate. It is a tetrameter (four subunits)composed of alpha helices and beta sheets (). Please note that alpha helices are observed in blue, and beta sheets are in yellow. The majority of the helices are located on the surface (outside) of the enzyme, where as most of the sheets are found in the interior. Most likely, polar amino acids are located on the peripheral helices, while hydrophobic or paired-polar amino acids are found within the beta sheet.
Hydrogen and Disulfide Bonds
The > for aldolase allow the protein proper stability. Hydrogen bonds are in red (there are plenty of them), and disfulfide bonds would appear as black. However, please note that there are no observable disulfide bonds in this picture.
