Sandbox 34
From Proteopedia
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The Adenylate Kinase is made up of <scene name='Sandbox_34/Adenylate_kinase_colors/1'>9 beta sheets (light blue) and 9 alpha helices (dark blue).</scene> | The Adenylate Kinase is made up of <scene name='Sandbox_34/Adenylate_kinase_colors/1'>9 beta sheets (light blue) and 9 alpha helices (dark blue).</scene> | ||
Adenylate Kinase also contains <scene name='Sandbox_34/Adenylate_kinase_hbonds_yell/1'>hydrogen bonds (yellow)</scene> that help to hold the helices and sheets together. | Adenylate Kinase also contains <scene name='Sandbox_34/Adenylate_kinase_hbonds_yell/1'>hydrogen bonds (yellow)</scene> that help to hold the helices and sheets together. | ||
| - | The <scene name='Sandbox_34/Adenylate_kinasehydrophobic_go/3'> | + | The <scene name='Sandbox_34/Adenylate_kinasehydrophobic_go/3'>hydrophobic interactions (deep pink)</scene> also play a huge role in holding this protein together. |
However, the hydrophobic interactions are not the only thing holding it together or helping to keep its conformation. There are also many <scene name='Sandbox_34/Adenylate_kinase_andpolarside/1'>polar and charged side groups (green)</scene> that help maintain the hydrophobic interactions and help stabilize the protein by interacting with one another. | However, the hydrophobic interactions are not the only thing holding it together or helping to keep its conformation. There are also many <scene name='Sandbox_34/Adenylate_kinase_andpolarside/1'>polar and charged side groups (green)</scene> that help maintain the hydrophobic interactions and help stabilize the protein by interacting with one another. | ||
Revision as of 00:14, 18 October 2012
| Please do NOT make changes to this Sandbox. Sandboxes 30-60 are reserved for use by Biochemistry 410 & 412 at Messiah College taught by Dr. Hannah Tims during Fall 2012 and Spring 2013. |
Introduction
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The is an awesome protein The Adenylate Kinase is made up of Adenylate Kinase also contains that help to hold the helices and sheets together. The also play a huge role in holding this protein together. However, the hydrophobic interactions are not the only thing holding it together or helping to keep its conformation. There are also many that help maintain the hydrophobic interactions and help stabilize the protein by interacting with one another.
