Difference between revisions of "Task 5: Mapping point mutations"
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Revision as of 12:43, 19 June 2011
- 1 Task description
- 2 SNP databases
- 3 Comparing the annotation of HGMD and SNPdb
- 4 Discussion
A detailed task description can be found here: Mapping point mutations
- Searched for PAH
- 429 Missense/Nonsense mutations known by HGMD Professional
There are several mutation types known for PAH:
- Small deletions
- Small insertions
- Small indels
- Gross deletions
- Gross insertions/duplications
- Complex rearrangements
One additional category of mutation is known, but is not recorded for PAH
- Repeat variations
The reference sequence is given by the accession number NM_000277.1, whose entry contains the following amino acid sequence:
MSTAVLENPGLGRKLSDFGQETSYIEDNCNQNGAISLIFSLKEEVGALAKVLRLFEEN DVNLTHIESRPSRLKKDEYEFFTHLDKRSLPALTNIIKILRHDI GATVHELSRDKKKDTVPWFPRTIQELDRFANQILSYGAELDADHPGFKDPVYRARRKQ FADIAYNYRHGQPIPRVEYMEEEKKTWGTVFKTLKSLYKTHACYEYNHIFPLLEKYCG FHEDNIPQLEDVSQFLQTCTGFRLRPVAGLLSSRDFLGGLAFRVFHCTQYIRHGSKPM YTPEPDICHELLGHVPLFSDRSFAQFSQEIGLASLGAPDEYIEKLATIYWFTVEFGLC KQGDSIKAYGAGLLSSFGELQYCLSEKPKLLPLELEKTAIQNYTVTEFQPLYYVAESF NDAKEKVRNFAATIPRPFSVRYDPYTQRIEVLDNTQQLKILADSINSEIGILCSALQK IK
Clarifications on insertions and deletions
The impact of insertions and deletions in coding regions on chromosomes can be differently. Fatal for a protein are insertions or deletions which introduce a frame shift. This happens when the length of the insertion or deletion is not divisible by 3 without producing a rest. Or in other words: Len mod 3 != 0 . Where Len is the length of the insertion or deletion.
We searched in dbSNP for silent mutations in coding regions. This means we only considered those SNPs which alter the triplet but not the amino acid.
To do so we used the Entrez interface of NCBI which is accessible under this URL:
The advantage of this Entrez interface is that we can construct arbitrary complex queries to restrict our result set.
We constructed the following query to search for SNPs which are considered silent in the coding regions of the human PAH gene (see figure 1):
- "synonymous-codon"[Function_Class] AND PAH[GENE] AND "human"[ORGN] AND "snp"[SNP_CLASS]
Results of this query can be accessed directly via the following URL:
We decided to download the results as FlatFile. This seemed to be the most simple format to process and contains almost all information we need.
A self written Perl script is helping us to parse the important information out of the FlatFile we downloaded in the previous step. In the current version the following information is parsed out of the FlatFile: identifier, triplet reference/mutated, allele reference/mutated , frame of the mutation, residue reference/mutated and residue position.
All annotations we retrieved are annotated for the mRNA sequence with the GenBank accession number NM_000277.1 which contains the coding sequences of our PAH protein with the accession number NP_000268.1 which is exactly the same protein and therefore has also the same sequence as the UniProt entry for PAH with the accession number P00439. Thus, no mapping to other residue coordinates was required to map these mutations to our mutation map.
With our perl script at hand (the code is accessible here: dbSNP Silent Mutations Parser) and the results in FlatFile format, we are only missing the CDS sequence of NM_000277.1 in order to get the used triplet for each residue. This CDS sequence can be found in the CCDS database of NCBI with the accession number CCDS9092.1.
Now, with all data at hand we can run our perl script in different ways to retrieve different outputs for different purposes. Currently the following three outputs with the following commands can be generated:
- Generates a WikiTable of found silent mutations: ./parse.pl wiki snp_result.txt ccds_pah.fasta
- Generates CSVs which can be used by our mapping tool to generate the mutation map: ./parse.pl map snp_result.txt ccds_pah.fasta
- Generates a human readable one liner for each silent mutation: ./parse.pl list snp_result.txt ccds_pah.fasta
We could find the following silent mutations in dbSNP:
|Identifier||AA-Position||Reference Triplet||Mutated Triplet||Reference Allele||Mutated Allele||Frame||Reference Residue||Mutated Residue|
Comparing the annotation of HGMD and SNPdb
Alignment of the reference sequences
We decided to use the sequence of PAH of Uniprot (see UniProt).
Alignment with the reference sequence used in HGMD
The resulting alignment shows a 100% identity without any gaps. Therefore it is a "self-alignment".
Alignment with the reference sequence used in SNPdb
At first, we were quite surprised that we found only 16 silent mutation for the PAH gene. Normally, silent mutations are expected to appear more frequent in coding regions than missense/nonsense mutations because they are not subject to positive selection pressure. However, we might think that the few known silent mutations in PAH is probably a result of lack of data.
|Allele Mutation||Absolute Frequency||Relative Frequency|