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Sandbox Reserved 960

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Revision as of 23:42, 22 December 2014

This Sandbox is Reserved from 15/11/2014, through 15/05/2015 for use in the course "Biomolecule" taught by Bruno Kieffer at the Strasbourg University. This reservation includes Sandbox Reserved 951 through Sandbox Reserved 975.

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Crystal structure of the Antennal Specific Protein-1 from Apis mellifera (AmelASP1) with a serendipitous ligand at pH 5.5

^[1] ^[2] ^[3] ^[4]

Updated on 22-December-2014

1 Function
2 Structure
3 Related Forms
4 Relevance
5 Structural highlights

Function

Structure

Image:3fe6 cartoon.jpg

Fig.1 Ribbon colored representation

AmelASP1 is composed of ^[5]

- : residues 8–25
- : residues 27–36
- : residues 42–56
- : residues 66–74
- : residues 75–77
- : residues 78–90
- : residues 96–112

has a break in the hydrogen-bonding pattern of its structure, forming tight substitute hydrogen bonds with water molecules. Thus, it results in a kink (at residue Ala 14)(scene) induced by a disruption in the helical conformation, due to hydrogen bonds with water molecules.

The C terminal(scene) domain of this molecule presents a characteristic PBP-GOP domain. While this protein is composed of 144 residues the domain PBP begin at 25 residue. ASP1 binds its ligand at low pH and releases it at neutral pH.

Components implicated in the structure rigidity:

AmelASP1 presents which are greatly enhancing its structure’s rigidity by linking four of the helices together.The six cysteines and their interval spacing are the most striking features shared by proteins belonging to the PBP family.

The is established between and through Cysteins 20 and 51. links and through Cys 47 and 98, and the connects and thanks to Cys 89 and Cys 107.

Furthermore, non covalent bonds also play an important role.

Indeed, at pH 5.5, Asp 66 and Leu 58 establish an hydrogene bond which is able to fix a key component structure such as H4. (scene) With their hydrogene bond Val 118 and Ile 119 stabilize alpha helix 2 and C terminal’s position. (scene)

Cavity

The dynamic structure of the protein is responsible of the ligand’s binding by adjustment of position. The structure looses its flexibility when binds. The successful delivery of the effector to the receptor relies on this property. The ligand binding pocket consists in a cavity formed by the helices H2, H4 and H5(scene), arranged in a globular shape. The top of the cavity is not closed and can establish contacts with the solvent. The cavity is prone to accept ligand such as 9-ODA because of its specific composition. Indeed, cavity components are mainly .They consequently interact with the ligand's hydrophobic carbon chain and are localized on the internal face of the helix.Thus, it implies that these residues respect a regular distance pattern in the primary structure of the ASP1.

Ligands

Fig.2 CMJ Ligplot

Fig.3 GOL Ligplot

Fig.4 Cl Ligplot

(A REFAIRE)

Related Forms

These structures shown below representing the same protein with variable ligand and pH emphasize and illustrate the binding versatility of PBP

3fe8 The same protein in complex with a serendipitous ligand soaked at pH 4.0
3fe9 The same protein in complex with a serendipitous ligand soaked at pH 7.0
3cdn The same protein in apo form soaked at pH 4.0
2h8v The same protein in apo form at pH 5.5
3cz2 The same protein in apo form at pH 7.0
3bfa The same protein in complex with the QMP at pH 5.5
3bfb The same protein in complex with the 9-ODA at pH 5.5
3bfh The same protein in complex with the HDOA at pH 5.5
3bjh The same protein in complex with the nBBSA at pH 5.5
3cyz The same protein in complex with the 9-ODA at pH 7.0
3cz0 The same protein in complex with the QMP at pH 7.0
3cz1 The same protein in complex with the nBBSA at pH 7.0
3cab The same protein in complex with the nBBSA soaked at pH 7.0

Relevance

Structural highlights

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

References for further information on the pheromone binding protein from Apis mellifera

↑ Pesenti ME, Spinelli S, Bezirard V, Briand L, Pernollet JC, Tegoni M, Cambillau C. Structural basis of the honey bee PBP pheromone and pH-induced conformational change. J Mol Biol. 2008 Jun 27;380(1):158-69. Epub 2008 Apr 27. PMID:18508083 doi:10.1016/j.jmb.2008.04.048
↑ Pesenti ME, Spinelli S, Bezirard V, Briand L, Pernollet JC, Campanacci V, Tegoni M, Cambillau C. Queen bee pheromone binding protein pH-induced domain swapping favors pheromone release. J Mol Biol. 2009 Jul 31;390(5):981-90. Epub 2009 May 28. PMID:19481550 doi:10.1016/j.jmb.2009.05.067
↑ Han L, Zhang YJ, Zhang L, Cui X, Yu J, Zhang Z, Liu MS. Operating mechanism and molecular dynamics of pheromone-binding protein ASP1 as influenced by pH. PLoS One. 2014 Oct 22;9(10):e110565. doi: 10.1371/journal.pone.0110565., eCollection 2014. PMID:25337796 doi:http://dx.doi.org/10.1371/journal.pone.0110565
↑ Lartigue A, Gruez A, Briand L, Blon F, Bezirard V, Walsh M, Pernollet JC, Tegoni M, Cambillau C. Sulfur single-wavelength anomalous diffraction crystal structure of a pheromone-binding protein from the honeybee Apis mellifera L. J Biol Chem. 2004 Feb 6;279(6):4459-64. Epub 2003 Oct 31. PMID:14594955 doi:10.1074/jbc.M311212200
↑ http://www.genome.jp/dbget-bin/www_bget?pdb:3FE6

Retrieved from "http://52.214.119.220/wiki/index.php/Sandbox_Reserved_960"

@@ Line 4: / Line 4: @@
 This is a default text for your page ''''''. Click above on '''edit this page''' to modify. Be careful with the &lt; and &gt; signs.
+The protein AmelASP1 has been identified in the antennae from the honeybee A.mellifera. Its primary sequence is 144 amino acids polypeptide with a molecular weight of 13.180 kDa.
+AmelASP1 is part of the Pheromone Binding Protein (PBP) family.
+The 3D representation shown below has been were obtained at pH 5.5 using the nano-drops technique
 <nowiki>
@@ Line 55: / Line 56: @@
 === Components implicated in the structure rigidity: ===
-AmelASP1 presents <scene name='60/604479/Disulfide_bonds/1'> three disulfide bridges</scene> which are greatly enhancing its structure’s rigidity by linking four of the helices together.The six cysteines and their interval spacing are the most striking features shared by proteins belonging to the OBP family.
+AmelASP1 presents <scene name='60/604479/Disulfide_bonds/1'> three disulfide bridges</scene> which are greatly enhancing its structure’s rigidity by linking four of the helices together.The six cysteines and their interval spacing are the most striking features shared by proteins belonging to the PBP family.
 The <scene name='60/604479/1st_disulfide_bridge/1'>first disulfide bridge</scene> is established between <scene name='60/604479/H1/2'>H1</scene> and <scene name='60/604479/H3/2'>H3</scene> through Cysteins 20 and 51. <scene name='60/604479/2nd_disulfide_bridge/2'>An other disulfide bridge</scene>  links <scene name='60/604479/H3/2'>H3</scene> and <scene name='60/604479/H6/1'>H6</scene> through Cys 47 and 98, and the <scene name='60/604479/3rd_disulfide_bridge/1'>third disulfide bridge</scene> connects <scene name='60/604479/H5/1'>H5</scene> and <scene name='60/604479/H6/1'>H6</scene> thanks to Cys 89 and Cys 107.
@@ Line 120: / Line 121: @@
 == Related Forms ==
-Autres versions de la protéine à pH variable
+These structures shown below representing the same protein with variable ligand and pH emphasize and illustrate the binding versatility of PBP
-**[[3fe8]]  	The same protein in complex with a serendipitous ligand soaked at pH 4.0 <br />
-**[[3fe9]]  	The same protein in complex with a serendipitous ligand soaked at pH 7.0 <br />
-**[[3cdn]]  The same protein in apo form soaked at pH 4.0 <br />
-**[[2h8v]]  The same protein in apo form at pH 5.5 <br />
-**[[3cz2]]  	The same protein in apo form at pH 7.0 <br />
-**[[3bfa]]	The same protein in complex with the QMP at pH 5.5 <br />
-**[[3bfb]]  	The same protein in complex with the 9-ODA at pH 5.5 <br />
-**[[3bfh]]  	The same protein in complex with the HDOA at pH 5.5 <br />
-**[[3bjh]]  	The same protein in complex with the nBBSA at pH 5.5 <br />
-**[[3cyz]]  	The same protein in complex with the 9-ODA at pH 7.0 <br />
+*[[3fe8]]  	The same protein in complex with a serendipitous ligand soaked at pH 4.0 <br />
-**[[3cz0]]  	The same protein in complex with the QMP at pH 7.0 <br />
+*[[3fe9]]  	The same protein in complex with a serendipitous ligand soaked at pH 7.0 <br />
-**[[3cz1]]  	The same protein in complex with the nBBSA at pH 7.0 <br />
+*[[3cdn]]  The same protein in apo form soaked at pH 4.0 <br />
-**[[3cab]]  The same protein in complex with the nBBSA soaked at pH 7.0 <br />
+*[[2h8v]]  The same protein in apo form at pH 5.5 <br />
+*[[3cz2]]  	The same protein in apo form at pH 7.0 <br />
+*[[3bfa]]	The same protein in complex with the QMP at pH 5.5 <br />
+*[[3bfb]]  	The same protein in complex with the 9-ODA at pH 5.5 <br />
+*[[3bfh]]  	The same protein in complex with the HDOA at pH 5.5 <br />
+*[[3bjh]]  	The same protein in complex with the nBBSA at pH 5.5 <br />
+*[[3cyz]]  	The same protein in complex with the 9-ODA at pH 7.0 <br />
+*[[3cz0]]  	The same protein in complex with the QMP at pH 7.0 <br />
+*[[3cz1]]  	The same protein in complex with the nBBSA at pH 7.0 <br />
+*[[3cab]]  The same protein in complex with the nBBSA soaked at pH 7.0 <br />

Sandbox Reserved 960

From Proteopedia

Revision as of 23:42, 22 December 2014

Crystal structure of the Antennal Specific Protein-1 from Apis mellifera (AmelASP1) with a serendipitous ligand at pH 5.5

Contents

Function

Structure

Components implicated in the structure rigidity:

Cavity

Ligands

Related Forms

Relevance

Structural highlights

References for further information on the pheromone binding protein from Apis mellifera

Views

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