Sandbox Reserved 427

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'''The Vitamin D Binding Site'''
'''The Vitamin D Binding Site'''
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The Vitamin D binding site is located in domain I and contains helices 1 through 6. The binding site is lined with hydrophobic residues that interact with the hydrophobic parts of the vitamin D3 ligand.<scene name='48/483884/Site_where_25ohd3_binds/2'>Hydrogen Bonds</scene> are formed between, the 25-hydroxyl and Tyr 32 with a distance of 2.85 angstroms, the 3-hydroxyl and Ser 76 with a distance of 3.01 angstroms and Met 109 with a distance of 3.01 angstroms. Different analogs of the vitamin D3 ligand influence hydrogen bond locations and binding affinities. <scene name='48/483884/Jy_site_where_25ohd3_binds/4'>The JY analog</scene>, for example, has a binding affinity to DBP of 1314, which is much greater compared to the affinity of 25OHD3, which is 667. This is due to the <scene name='48/483884/Stacking_stabilization_with_jy/2'>stacking of the aromatic sidechain of JY</scene> and the aromatic residues of Phe 24, Tyr 34, Phe 36, and Tyr 38.
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The Vitamin D binding site is located in domain I and contains helices 1 through 6. The binding site is lined with hydrophobic residues that interact with the hydrophobic parts of the vitamin D3 ligand.<scene name='48/483884/Site_where_25ohd3_binds/2'>Hydrogen Bonds</scene> are formed between, the 25-hydroxyl and Tyr 32 with a distance of 2.85 angstroms, the 3-hydroxyl and Ser 76 with a distance of 3.01 angstroms and Met 109 with a distance of 3.01 angstroms. Different analogs of the vitamin D3 ligand influence hydrogen bond locations and binding affinities. <scene name='48/483884/Jy_site_where_25ohd3_binds/4'>The JY analog</scene>, for example, has a binding affinity to DBP of 1314, which is much greater compared to the affinity of 25OHD3, which is 667. This is due to the <scene name='48/483884/Stacking_stabilization_with_jy/3'>stacking of the aromatic sidechain of JY</scene> and the aromatic residues of Phe 24, Tyr 34, Phe 36, and Tyr 38.
'''Biological Relevance of The Vitamin D Binding Site'''
'''Biological Relevance of The Vitamin D Binding Site'''

Revision as of 00:25, 11 April 2016


This Sandbox is Reserved from January 19, 2016, through August 31, 2016 for use for Proteopedia Team Projects by the class Chemistry 423 Biochemistry for Chemists taught by Lynmarie K Thompson at University of Massachusetts Amherst, USA. This reservation includes Sandbox Reserved 425 through Sandbox Reserved 439.


Vitamin D binding protein (1j7e)[1]

Alex Debreceni, Robert Green, Uday Prakhya, Nicholas Rivelli, Elizabeth Swanson

Student Projects for UMass Chemistry 423 Spring 2016

caption for Molecular Playground (PDB entry 1j7e)

Drag the structure with the mouse to rotate
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