Difference between revisions of "Fabry:Mapping point mutations"
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== Mapping == |
== Mapping == |
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+ | <figure id="fig:posvssd_noHGMD">[[File:Fabry_posvssd_noHGMD.png|400px|thumb|left|<caption>Distribution of disease and non-disease causing SNPs along the sequence of GLA (HGMD is not displayed)</caption>]]</figure> |
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<div style="float:right; border:thin solid lightgrey; margin: 0px 0px 20px 20px;"> |
<div style="float:right; border:thin solid lightgrey; margin: 0px 0px 20px 20px;"> |
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<figtable id="tab:pics_SNPdist_all"> |
<figtable id="tab:pics_SNPdist_all"> |
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<caption>SNP distribution of all databases</caption> |
<caption>SNP distribution of all databases</caption> |
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{| style="border-style: solid; border-width: 1px" |
{| style="border-style: solid; border-width: 1px" |
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− | | [[File:FABRY_SNPdistr_allDis.png|right| |
+ | | [[File:FABRY_SNPdistr_allDis.png|right|300px|thumb| SNPs that are listed as diseases causing were mapped onto the sequence and their frequency displayed]] |
− | | [[File:FABRY_SNPdistr_allNonDis.png|right| |
+ | | [[File:FABRY_SNPdistr_allNonDis.png|right|300px|thumb|SNPs that are listed as non-diseases causing were mapped onto the sequence and their frequency displayed]] |
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</figtable> |
</figtable> |
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− | </div> |
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− | <div style="float:right; border:thin solid lightgrey; margin: 0px 0px 20px 20px;"> |
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<figtable id="tab:pics_hist"> |
<figtable id="tab:pics_hist"> |
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<caption>Histogram of SNPs listed in all databases</caption> |
<caption>Histogram of SNPs listed in all databases</caption> |
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{| style="border-style: solid; border-width: 1px" |
{| style="border-style: solid; border-width: 1px" |
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− | | [[File:FABRY_Hist_Dis.png|right| |
+ | | [[File:FABRY_Hist_Dis.png|right|300px|thumb|Histogram of SNPs that are listed as diseases causing; Duplicates were counted only once]] |
− | | [[File:FABRY_Hist_NonDis.png|right| |
+ | | [[File:FABRY_Hist_NonDis.png|right|300px|thumb|Histogram of SNPs that are listed as non-diseases causing or silent; Duplicates were counted only once]] |
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</figtable> |
</figtable> |
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</div> |
</div> |
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− | For a first overview of the number of SNPs at each position, we displayed the disease and non-disease causing SNPs along the sequence. <xr id="tab:pics_SNPdist_all"/> shows, that there are, of course, way more disease causing point mutations (red) than non-disease causing and silent ones (green). Both groups appear to be distributed evenly along the sequence, but since we wanted to be sure, we created a histogram. Important to note here, is that <xr id="tab:pics_SNPdist_all"/> lists all hits of all databases, but in the histograms, redundant information is filtered out. |
+ | For a first overview of the number of SNPs at each position, we displayed the disease and non-disease causing SNPs along the sequence. <xr id="tab:pics_SNPdist_all"/> shows, that there are, of course, way more disease causing point mutations (red) than non-disease causing and silent ones (green). Both groups appear to be distributed evenly along the sequence, but since we wanted to be sure, we created a histogram. Important to note here, is that <xr id="tab:pics_SNPdist_all"/> lists all hits of all databases, but in the histograms (see <xr id="tab:pics_hist"/>), redundant information is filtered out. There is not much to say about the silent and non-disease causing mutations, because there are only very few and they are fairly even distributed along the sequence, except for the afore mentioned gap between 50 and 120. The histogram of the disease causing mutations does not reveal an actual accumulation at one certain point of the sequence, but several peaks that stick out (e.g. between 40 and 50). We can see again, that the number of point mutations in the signal peptide is only sparse and in the area of 20 to 30 there is no SNP at all. |
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<br> |
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In order to discover the overlap of the different databases, we displayed each SNP as a point along the sequence, indicating, whether it causes Fabry Disease, or not and which database the information was gained from. We tried to display all databases, but since there are too many HGMD hits, and no real hotspots of the SNPs in this database could be seen (see [[Media:Fabry_posvssd_all.png|Fabry_posvssd_all.png]]), we decided too display only the remaining four databases in <xr id="fig:posvssd_noHGMD"/>. <br> |
In order to discover the overlap of the different databases, we displayed each SNP as a point along the sequence, indicating, whether it causes Fabry Disease, or not and which database the information was gained from. We tried to display all databases, but since there are too many HGMD hits, and no real hotspots of the SNPs in this database could be seen (see [[Media:Fabry_posvssd_all.png|Fabry_posvssd_all.png]]), we decided too display only the remaining four databases in <xr id="fig:posvssd_noHGMD"/>. <br> |
||
Here, it becomes obvious, that the disease causing mutations have almost 100% coverage (pink, green and blue points almost never appear alone, but most of the time in triplets), while the non-disease causing point mutations do not group together. |
Here, it becomes obvious, that the disease causing mutations have almost 100% coverage (pink, green and blue points almost never appear alone, but most of the time in triplets), while the non-disease causing point mutations do not group together. |
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− | <figure id="fig:posvssd_noHGMD">[[File:Fabry_posvssd_noHGMD.png|400px|thumb|right|<caption>Distribution of disease and non-disease causing SNPs along the sequence of GLA (HGMD is not displayed)</caption>]]</figure> |
Revision as of 10:03, 10 June 2012
Fabry Disease » Mapping point mutations
The following analyses were performed on the basis of the α-Galactosidase A sequence. Please consult the journal for the commands used to generate the results.
Database comparison
<figtable id="tab:database_comparison"> Comparison of the databases used for the analysis
Database name | Information given | Last updated | Evidence |
---|---|---|---|
dbSNP | |||
HGMD | |||
OMIM | |||
SNPdbe | |||
SNPedia |
</figtable>
HGMD
Mutation types:
- Missense/nonsense
- Point mutations in coding regions
- Splicing
- These mutations have an effect on the mRNA splicing.
- Regulatory
- Mutations that to changes in the regulation of the gene
- Small deletions
- Deletions of 20 bp or less
- Small insertions
- Insertions of 20 bp or less
- Small indels
- Sequence parts of 20 bp or less that are replaced by a new sequence of not necessarily the same length
- Gross deletions
- Deletions of more than 20 bp, can affect several kb
- Gross insertions/duplications
- Insertions or duplications of more than 20 bp, often several kb
- Complex rearrangements
- Deletions, insertions, duplications and inversions that were observed at specific gene location.
- Repeat variations
- The number of repetitions of a gene region differs from the wild type
dbSNP
At the time we checked dbSNP, it listed eight silent single point mutations.
OMIM
<figure id="fig:OMIM_SNPs">
</figure>
The OMIM database lists 62 (actually 63, since one entry contains 2 SNPs) allelic variants for the gene GLA. Of these, 6 are exon deletions, 10 are base pair deletions, 4 are located in non-coding regions, 1 was an exon duplication and 2 Insertions (see OMIM data-Allelic variants). The remaining 40 variants are specified as SNPs and are listed in OMIM data-SNPs.
Of course, all of the mentioned mutations are disease causing. In <xr id="fig:OMIM_SNPs"/> we show the distribution of SNPs along the sequence of the α-galactosidase A coding gene. There seems to be no real "hotspot" of SNPs, but a long strip of sequence without any point mutation (position 66-112). In the signal peptide only one mutation is listed, and in at the active site amino acids (170 and 231), as well as the binding site (203-207) there are none.
SNPedia
<figure id="fig:SNPedia_SNPs">
</figure>
In SNPedia exists a site for the disease, that is caused by mutations in the gene we are examining, Fabry Disease, but not for the gene itself (GLA).
Thus we performed a query with the search term "Gene=GLA", which resulted in 40 hits (see SNPedia_data). 32 are missense mutations and the remaining 8 are stop-gained.
Again, only one hit was in the signal peptide part of the sequence and none of the important residues is mutated (see <xr id="fig:SNPedia_SNPs"/>).
The gap of no variation between position 66 and 112 can be observed as well and besides from that a rather even distribution without big peaks.
Without deeper look, it can be said, that the results from OMIM and SNPedia are very similar, by simply comparing <xr id="fig:SNPedia_SNPs"/> and <xr id="fig:OMIM_SNPs"/>
SNPdbe
<figure id="fig:SNPdbe_SNPs">
</figure> <figure id="fig:SNPdbe_SNPs2">
</figure>
A search in the SNPdbe database revealed 57 mutations (source), which are listed in SNPdbe data SNPdbe lists 35 desease causing and 22 non-disease causing mutations (see <xr id="fig:SNPdbe_SNPs2"/>). The distribution of disease causing SNPs again looks similar to the distributions of OMIM and SNPedia
(see <xr id="fig:SNPedia_SNPs"/> and <xr id="fig:OMIM_SNPs"/>), although there are more SNPs in the signal peptide region (position 1-31) and the gap is closed by one mutation at position 94.
Here, the distribution of SNPs that are not causing Fabry's Disease (or any other disease) appears to be homogeneous, except for a long sequence part from residue 29 to 117.
If we use only confirmed point mutations (see <xr id="fig:SNPdbe_SNPs_conf"/>), the plot looks very different, since there are only few non-disease causing SNPs left (7).
<figure id="fig:SNPdbe_SNPs_conf">
</figure>
Mapping
<figure id="fig:posvssd_noHGMD">
</figure>
<figtable id="tab:pics_SNPdist_all"> SNP distribution of all databases
</figtable>
<figtable id="tab:pics_hist"> Histogram of SNPs listed in all databases
</figtable>
For a first overview of the number of SNPs at each position, we displayed the disease and non-disease causing SNPs along the sequence. <xr id="tab:pics_SNPdist_all"/> shows, that there are, of course, way more disease causing point mutations (red) than non-disease causing and silent ones (green). Both groups appear to be distributed evenly along the sequence, but since we wanted to be sure, we created a histogram. Important to note here, is that <xr id="tab:pics_SNPdist_all"/> lists all hits of all databases, but in the histograms (see <xr id="tab:pics_hist"/>), redundant information is filtered out. There is not much to say about the silent and non-disease causing mutations, because there are only very few and they are fairly even distributed along the sequence, except for the afore mentioned gap between 50 and 120. The histogram of the disease causing mutations does not reveal an actual accumulation at one certain point of the sequence, but several peaks that stick out (e.g. between 40 and 50). We can see again, that the number of point mutations in the signal peptide is only sparse and in the area of 20 to 30 there is no SNP at all.
In order to discover the overlap of the different databases, we displayed each SNP as a point along the sequence, indicating, whether it causes Fabry Disease, or not and which database the information was gained from. We tried to display all databases, but since there are too many HGMD hits, and no real hotspots of the SNPs in this database could be seen (see Fabry_posvssd_all.png), we decided too display only the remaining four databases in <xr id="fig:posvssd_noHGMD"/>.
Here, it becomes obvious, that the disease causing mutations have almost 100% coverage (pink, green and blue points almost never appear alone, but most of the time in triplets), while the non-disease causing point mutations do not group together.