User:Chloe Tucker/Sandbox 1

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GIP and GIP-R

This is a default text for your page Chloe Tucker/Sandbox 1. Click above on edit this page to modify. Be careful with the < and > signs.

You may include any references to papers as in: the use of JSmol in Proteopedia ^[1] or to the article describing Jmol ^[2] to the rescue.

1 Introduction
2 Function
3 Disease
4 Relevance
5 Structural highlights

Introduction

Diabetes

Function

^[3].

Disease

Relevance

Structural highlights

This is a sample scene created with SAT to of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes.

Binding/Active Site of GIPR with GIP

Figure 1. GIPR and GIP residue interactions

The of GIP with the GIP receptor (GIPR) is where the N-term of GIP binds with the transmembrane domain of the GIPR. The first interaction formed with GIPR and the N-term of GIP is a hydrogen bond between Tyrosine 1 (Y1) and Glutamine 224 (Q224) to activate the G-protein to start sending signals to the cell. Many other within the binding site are forming hydrogen bonds and hydrophobic interactions between the ligand and the receptor. The N-term binds more strongly than the C-term and there are many different residues contributing to this, including, Tyrosine 1 (Y1) and Tryptophan (W296) are forming aromatic interactions. Serine 8 (S8) and Asparagine 290 (N290) are forming two hydrogen bonds with each other. Aspartate 9 (D9) is forming another hydrogen bond with Arginine 370 (R370)^[3]. These hydrogen bonds lead to the activation of cell signaling and when this binding is somehow disrupted, that is what causes different diseases like diabetes.

Binding/Active Site of GIPR with Tirzepatide

Figure 2. Residue Interactions with Tirzepatide

The is the same as GIP with the N-term binding to the transmembrane domain. The are fairly similar just in a different conformations, which is allowing for more hydrogen bonding. The more hydrogen bonding there is the stronger the binding between the two proteins will be. In Tirzepatide the most noticeable change is the Tyrosine 1 (Y1) residue. It is now facing up towards Arginine 190 (R190) where they can now form a hydrogen bond that was not present in GIP. This can lead to the conclusion that GIPR has a higher binding affinity for Tirzepatide than GIP itself^[3].

Isoleucine vs. Threonine

References

^[3]

Student Contributors

Chloe Tucker
Mandy Bechman

Proteopedia Page Contributors and Editors (what is this?)

Chloe Tucker

Retrieved from "http://52.214.119.220/wiki/index.php/User:Chloe_Tucker/Sandbox_1"

@@ Line 24: / Line 24: @@
 [[Image:TZ_hydrogen_bonds.jpg|350 px|right|thumb|Figure 2. Residue Interactions with Tirzepatide]]
 The <scene name='10/1038815/Tirzepatide_active_site/2'>Tirzepatide binding site</scene> is the same as GIP with the N-term binding to the transmembrane domain.
-The <scene name='10/1038815/Tirzepatide_residues/5'>residues</scene> are fairly similar just in a different conformations, which is allowing for more hydrogen bonding. The more hydrogen bonding there is the stronger the binding between the two proteins is. In Tirzepatide the most noticeable change is the Tyrosine 1 (Y1) residue. It is now facing up towards Arginine 190 (R190) where they can now form a hydrogen bond that was not present in GIP. This can lead to the conclusion that GIPR has a higher binding affinity for Tirzepatide than GIP itself<ref name="Sun"/>.
+The <scene name='10/1038815/Tirzepatide_residues/5'>residues</scene> are fairly similar just in a different conformations, which is allowing for more hydrogen bonding. The more hydrogen bonding there is the stronger the binding between the two proteins will be. In Tirzepatide the most noticeable change is the Tyrosine 1 (Y1) residue. It is now facing up towards Arginine 190 (R190) where they can now form a hydrogen bond that was not present in GIP. This can lead to the conclusion that GIPR has a higher binding affinity for Tirzepatide than GIP itself<ref name="Sun"/>.
 === Isoleucine vs. Threonine ===
 <scene name='10/1038815/Tirzepatide_thr7/2'>Threonine 7</scene>