Difference between revisions of "Rs1054374"
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=== Conservation Analysis with Multiple Alignments === |
=== Conservation Analysis with Multiple Alignments === |
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| + | As a next step we created a multiple alignment which contains the HEXA sequence and 9 other mammalian homologous sequences from uniprot. Afterwards we looked at the position of the different mutations and looked at the conservation level on this position. The regarded mutation is presented by the colored column. Here we can see, that the many other mammalians have on this position another amino acid. Only four other mammalian agrees and have at this position a Serine. Therefore, the mutation on this position is not highly conserved and a mutation there will cause probably no structural and functional changes for the protein. |
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[[Image:mut_6.png|thumb|center|600px|Mutation in the multiple alignment]] |
[[Image:mut_6.png|thumb|center|600px|Mutation in the multiple alignment]] |
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Revision as of 11:01, 26 June 2011
Contents
General Information
| SNP-id | rs1054374 |
| Codon | 293 |
| Mutation Codon | Ser -> Ile |
| Mutation Triplet | AGT -> ATT |
Pysicochemical Properities
First of all, we explored the amino acid properties and compared them for the original and the mutated amino acid. Therefore we created the possible effect that the mutation could have on the protein.
| Ser | Ile | consequences |
| polar, tiny, hydrophilic, neutral | aliphatic, hydrophobic, neutra | Ile is much bigger than Ser and also is branched, because it is an aliphatic amino acid. Therefore the structure of both amino acids is really different and Ile is to big for the position where Ser was. Therefore, there has to be a big change in the 3D structure of the protein and the protein probably will loose its function. |
Visualisation of the Mutation
In the next step, we created the visualization of the muation with PyMol. Therefore we created a picture for the original amino acid, for the new mutated amino acid and finally for both together in one picture whereas the mutation is white colored. The following pictures display that the original amino acid Serine looks different to Isoleucine. Serine is very small whereas Isoleucine is bigger and has two spreadin chains. The first part of the rest agrees in both amino acids. In this case the difference is not so heavy, but can also cause some structural changes which can have affects on the protein function. All in all, the mutation will probably have no structural or functional changes.
| picture original aa | picture mutated aa | combined picture |
Subsitution Matrices Values
| PAM 1 | Pam 250 | BLOSOUM 62 | ||||||
| value aa | most frequent substitution | rarest substitution | value aa | most frequent substitution | rarest substitution | value aa | most frequent substitution | rarest substitution |
| 2 | 38 (Thr) | 1 (Leu) | 5 | 9 (Ala, Gly, Pro, Thr) | 3 (Phe) | -2 | 1 (Ala, Asn, Thr) | -3 (Trp) |
PSSM analysis
| self-information | expected self-information | |
| Ser | 1 | 10 |
| Ile | 1 | 7 |
Conservation Analysis with Multiple Alignments
As a next step we created a multiple alignment which contains the HEXA sequence and 9 other mammalian homologous sequences from uniprot. Afterwards we looked at the position of the different mutations and looked at the conservation level on this position. The regarded mutation is presented by the colored column. Here we can see, that the many other mammalians have on this position another amino acid. Only four other mammalian agrees and have at this position a Serine. Therefore, the mutation on this position is not highly conserved and a mutation there will cause probably no structural and functional changes for the protein.
Secondary Structure Mutation Analysis
JPred: ...HHHHHHHHCCCEEEECCCCCHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCC... PsiPred: ...HHHHHHHHCCCEEEECCCCCHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCH...
Comparison with the real structure:
SNAP Prediction
| Substitution | Prediction | Reliability Index | Expected Accuracy |
| I | Neutral | 2 | 69% |
A detailed list of all possible substitutions can be found [here]
SIFT Prediction
SIFT Matrix:
Each entry contains the score at a particular position (row) for an amino acid substitution (column). Substitutions predicted to be intolerant are highlighted in red.
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SIFT Table
Threshold for intolerance is 0.05.
Amino acid color code: nonpolar, uncharged polar, basic, acidic.
Capital letters indicate amino acids appearing in the alignment, lower case letters result from prediction.
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