Difference between revisions of "Task 8: Sequence-based mutation analysis"

From Bioinformatikpedia
(Mutation analysis results)
(Mutation analysis results)
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| || His63Asp || aromatic ring, basic polar, mainly neutral charge || acidic polar, negative charge ||[[File:his63asp.png|center|thumb|200px| His63Asp mutation with histidine in yellow and aspartic acid in red.]] || || || || || || || || ||
 
| || His63Asp || aromatic ring, basic polar, mainly neutral charge || acidic polar, negative charge ||[[File:his63asp.png|center|thumb|200px| His63Asp mutation with histidine in yellow and aspartic acid in red.]] || || || || || || || || ||
 
|-
 
|-
| || Arg67His || aliphatic, basic polar, delocalised positive charge || aromatic ring, basic polar, mainly neutral charge || [[File:arg67his.png|center|thumb|200px| Arg67His mutation with arginine in yellow and histidine in red.]] || || || || || || || || ||
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| || Arg67His || aliphatic, basic polar, delocalised positive charge || aromatic ring, basic polar, mainly neutral charge || [[File:arg67his.png|center|thumb|200px| Arg67His mutation in the center with arginine in yellow and histidine in red.]] || || || || || || || || ||
 
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| || Met97Ile || || || || || || || || || || || ||
 
| || Met97Ile || || || || || || || || || || || ||

Revision as of 19:57, 22 August 2013

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Lab journal task 8

Mutation selection

<figtable id="mutations">

mutations
nucleotide change amino acid change
Val53Met
His63Asp
Arg67His
Met97Ile
Asn130Ser
Glu168Gln
Leu183Pro
Thr217Ile
Cys282Tyr
Arg330Met
Table 1: List of the 10 selected mutations from HGMD and dbSNP.

</figtable>


Mutation analysis results

<figtable id="summary">

reference mutation pyhsicochemical properties strucural properties conservation prediction programms consensus
from to pymol visualisation secondary structure substitution matrix PSSM MSA SIFT Polyphen2 MutationTaster SNAP
Val53Met brached chain, nonpolar, neutral charge sulfur containing, nonpolar, neutral charge
Val53Met mutation with valine in yellow and methionine in red.
His63Asp aromatic ring, basic polar, mainly neutral charge acidic polar, negative charge
His63Asp mutation with histidine in yellow and aspartic acid in red.
Arg67His aliphatic, basic polar, delocalised positive charge aromatic ring, basic polar, mainly neutral charge
Arg67His mutation in the center with arginine in yellow and histidine in red.
Met97Ile
Asn130Ser
Glu168Gln
Leu183Pro
Thr217Ile
Cys282Tyr
Arg330Met Could not be visualized because this resdiue is not contained in the the pdb structure.
Table 2: Summary of the results of analysis of all mutations.

</figtable>

All results from the mutation analysis are summarised in <xr id="summary"/>. Physicochemical properties are specified as characteristics of the aa, side chain polarity and charge.

Val53Met
The main effect of the change from valine to methonine is mainly due to the structure, because both aa are nonpolar and neutral. Methionine is linear and valine has a branched structure. As can be seen in the picture, this could lead to clashes with the alpha helix above the methionine.
His63Asp
This mutation is could be disease causing, because the basic aa histidine is replaced by the acidic aspartic acid. Besides, histidine is mainly neutral whereas the aspartic acid is negatively charged. But the pymol picture shows that residue 63 is located in a surface loop. Since both aa are not hydrophob, the implication of this aa exchange for the function of the protein is therefor not as severe as if this mutation would be located in the interior of the protein.
Arg67His
Arginine is able to form multiple H-bonds due to its delocalised positive charge and histidine is also able to form H-bonds. Both aa are basic polar. Thus, the main difference between arginine and histidine is the positive and neutral charge and that histidine contains an aromatic ring whereas arginine is aliphatic. The pymol visualisation of the mutation shows that the mutation is located in a surface loop and since both aa are not hydrophob, we think that the effect of the mutation should not be too severe.