Difference between revisions of "Structure-based mutation analysis (PKU)"

From Bioinformatikpedia
(1J8U)
Line 155: Line 155:
 
<figure id="1J8Uclose">[[File:1J8Usitesclose.png|500px|thumb|left|<caption>Rendering of a close-up of the structures of 1J8U using PyMol. The protein is colored cyan overall, whereas the Fe-atom is colored red and the important residues are shown as sticks and colored in the element-based fashion. Binding is shown with yellow strokes, if the distance is bigger than 1.5 Å</caption>]] </figure>
 
<figure id="1J8Uclose">[[File:1J8Usitesclose.png|500px|thumb|left|<caption>Rendering of a close-up of the structures of 1J8U using PyMol. The protein is colored cyan overall, whereas the Fe-atom is colored red and the important residues are shown as sticks and colored in the element-based fashion. Binding is shown with yellow strokes, if the distance is bigger than 1.5 Å</caption>]] </figure>
 
</div>
 
</div>
  +
== Mutations ==
  +
As you probably know from [[Predicting_the_Effect_of_SNPs_(PKU)#Our dataset|last weeks dataset]] the first two mutations are located before residue 103 and therefore not contained in the structure. We will change them according to the premise, that the number of diseasecausing and non-diseasecausing mutations are equal.

Revision as of 13:29, 20 June 2012

short task description

Finding the right structure

As proposed we searched the UNIProt entry for our protein and then selected the entry with the highest resolution and the lowest r-Value. In our case this is 1J8U which is the protein in a complex with its cosubstrate BH4. IN the following we will only use this structure, but we also list the results we found. <figtable id="uniprotresult">

Table with results from UNIProt with r-Value inserted
Entry Method Resolution (Å) r-Value Chain Positions PDBsum
1DMW X-ray 2.00 0.200 A 118-424 [»]
1J8T X-ray 1.70 0.197 A 103-427 [»]
1J8U X-ray 1.50 0.157 A 103-427 [»]
1KW0 X-ray 2.50 0.220 A 103-427 [»]
1LRM X-ray 2.10 0.211 A 103-427 [»]
1MMK X-ray 2.00 0.199 A 103-427 [»]
1MMT X-ray 2.00 0.213 A 103-427 [»]
1PAH X-ray 2.00 0.176 A 117-424 [»]
1TDW X-ray 2.10 0.206 A 117-424 [»]
1TG2 X-ray 2.20 0.213 A 117-424 [»]
2PAH X-ray 3.10 0.251 A/B 118-452 [»]
3PAH X-ray 2.00 0.175 A 117-424 [»]
4ANP X-ray 2.11 0.204 A 104-427 [»]
4PAH X-ray 2.00 0.169 A 117-424 [»]
5PAH X-ray 2.10 0.163 A 117-424 [»]
6PAH X-ray 2.15 0.171 A 117-424 [»]

</figtable> In <xr id="uniprotresult"/> there are all results according to which we selected 1J8U to be our reference for this weeks task. The corresponding line is marked in yellow.

1J8U

In order to know the structure of the protein and its important residues, we have a look at its structure with PyMol and visualize the BH4 and the Fe-ion with the most important residues.

<figure id="1J8Uwhole">
Rendering of the overall structures of 1J8U using PyMol. The protein is colored cyan overall, whereas the Fe-atom is colored red and the important residues are shown as sticks and colored in the element-based fashion. Binding is shown with yellow strokes, if the distance is bigger than 1.5 Å
</figure>
<figure id="1J8Uclose">
Rendering of a close-up of the structures of 1J8U using PyMol. The protein is colored cyan overall, whereas the Fe-atom is colored red and the important residues are shown as sticks and colored in the element-based fashion. Binding is shown with yellow strokes, if the distance is bigger than 1.5 Å
</figure>

Mutations

As you probably know from last weeks dataset the first two mutations are located before residue 103 and therefore not contained in the structure. We will change them according to the premise, that the number of diseasecausing and non-diseasecausing mutations are equal.