Emily Berkman/Sandbox 2
From Proteopedia
(Difference between revisions)
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==amylin images== | ==amylin images== | ||
<StructureSection load='7tzf' size='340' side='right' caption='Caption for this structure' scene=''> | <StructureSection load='7tzf' size='340' side='right' caption='Caption for this structure' scene=''> | ||
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| - | <scene name='10/1038871/Conserved_residues/1'>Conserved Residues</scene> | ||
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| - | <scene name='10/1038871/Disulfide/1'>Disulfide</scene> | ||
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| - | <scene name='10/1038871/T9_network/1'>T9 Water Network Side Chain Interactions</scene> | ||
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| - | <scene name='10/1038871/T9_main_chain/4'>T9 Water Network Main Chain</scene> | ||
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<scene name='10/1038871/Superimposed_ramps/1'>superimposed ramps</scene> | <scene name='10/1038871/Superimposed_ramps/1'>superimposed ramps</scene> | ||
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==Amylin== | ==Amylin== | ||
Amylin is extremely conserved among species, in order to maintain proper structure and function. Some of the main <scene name='10/1038871/Conserved_residues/1'>conserved residues</scene> are Lysine 1, Cysteine 2, Alanine 5, Threonine 6, and Cysteine 7. All of the conserved residues exhibit extensive hydrogen bonding networks between either other residues or surrounding water molecules. There is also a [https://en.wikipedia.org/wiki/Disulfide disulfide bond] between <scene name='10/1038871/Disulfide/1'>C2 and C7</scene> that is conserved across almost every species. | Amylin is extremely conserved among species, in order to maintain proper structure and function. Some of the main <scene name='10/1038871/Conserved_residues/1'>conserved residues</scene> are Lysine 1, Cysteine 2, Alanine 5, Threonine 6, and Cysteine 7. All of the conserved residues exhibit extensive hydrogen bonding networks between either other residues or surrounding water molecules. There is also a [https://en.wikipedia.org/wiki/Disulfide disulfide bond] between <scene name='10/1038871/Disulfide/1'>C2 and C7</scene> that is conserved across almost every species. | ||
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==T9== | ==T9== | ||
Threonine 9 is an essential residue for stabilization of amylin in the receptor. Threonine side chains are polar which allow them to hydrogen bond with other nearby polar groups, which can lead to extensive networks of interactions. This is seen in amylin at T9. T9 interacts with the <scene name='10/1038871/T9_main_chain/4'>main chain atoms</scene> of Y191, M230, I380, and H381 of the [https://en.wikipedia.org/wiki/Calcitonin_receptor calcitonin receptor] and many surrounding water molecules, but it also interacts with the <scene name='10/1038871/T9_network/1'>side chain atoms</scene> of S159, N194, S195, H226, N233, and Q383. All of these interactions create a very strong interaction between amylin and the receptor. The water network also helps stabilize the active receptor conformation. | Threonine 9 is an essential residue for stabilization of amylin in the receptor. Threonine side chains are polar which allow them to hydrogen bond with other nearby polar groups, which can lead to extensive networks of interactions. This is seen in amylin at T9. T9 interacts with the <scene name='10/1038871/T9_main_chain/4'>main chain atoms</scene> of Y191, M230, I380, and H381 of the [https://en.wikipedia.org/wiki/Calcitonin_receptor calcitonin receptor] and many surrounding water molecules, but it also interacts with the <scene name='10/1038871/T9_network/1'>side chain atoms</scene> of S159, N194, S195, H226, N233, and Q383. All of these interactions create a very strong interaction between amylin and the receptor. The water network also helps stabilize the active receptor conformation. | ||
Revision as of 19:36, 9 April 2024
amylin images
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