Difference between revisions of "Exploring QuiXoT features"
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=== Analysis 1 === | === Analysis 1 === | ||
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+ | We will check some features using the 18O experiment using high resolution spectrometry, which we can see in the '''[[Unit tests for QuiXoT#Test 1: 18O quantification and statistical analysis from Proteome Discoverer results|Test 1 of the unit test]]'''. If you didn't generate the '''[[QuiXML]]''' file (including quantification and statistics) following those steps, you can use the file ''VSMC_QuiXML_bs_quant_stats.xml'' in the ''VSMC_result'' folder (remember to move this file together with the '''[[binStack]]''' if you want to see the spectra; or just use the QuiXML alone if you do not need them). | ||
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+ | 1) Open ''QuiXoT.exe'', drag and drop anywhere on its window the abovementioned QuiXML file, and select the ''18, HR, SEQUEST'' strategy. You should see this window: | ||
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+ | [[File:Quixot analysis 1a.png]] | ||
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+ | 2) We might want to start checking how are the spectra (if you didnot copy the binStack, you can skip this). Click on button ''spectrum'', and then click on any row in the datagrid. For the fourth row (with FirstScan = 8502) you should see something like this | ||
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+ | [[File:Quixot analysis 1b.png]] | ||
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+ | The experimental spectrum is drawn blue colour, while the red colour is the theoretical prediction (taking into account the peptide sequence, the isotope distribution, the labelling, and the labelling efficiency). The "lids" of the quantified peaks depict the tolerance used to consider if the theoretical peak matched (or not) the experimental one (note that there is a minimum "lid size" to visualise it). We can enlarge it to see better: | ||
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+ | [[File:Quixot analysis 1c.png]] | ||
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+ | Or select the first four quantified peaks with the mouse (click and drag horizontally): | ||
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+ | [[File:Quixot analysis 1d.png]] | ||
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+ | In this view we can see that apparently no co-eluted peaks are present. | ||
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+ | Note that on the top of the screen we have an indicator of which is the precursor mass of the peptide that has been matched: | ||
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+ | [[File:Quixot analysis 1e.png]] | ||
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+ | Let's look at a specific spectrum. To make it faster, we will [[Filtering data in QuiXoT|filter the spectrum]] with FirstScan = 3017: | ||
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+ | [[File:Quixot analysis 1f.png]] | ||
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+ | The open the spectrum, enlarge | ||
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+ | [[File:Quixot analysis 1f.png]] | ||
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+ | And then select the third quantified (red) peak: | ||
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+ | [[File:Quixot analysis 1f.png]] | ||
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+ | This is a clear example of a co-eluted peak, so we can label that peak to filter it out of the statistics later. We can go to the Label4 column, and directly write down ''s_coelution'' (or any other tag we prefer, as far as we can filter it easily later; starting the tags related to scans as ''s_'', those related to peptides as ''p_'', and those related to proteins as ''q_'' is a good practice to distinguish between filters): | ||
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+ | [[File:Quixot analysis 1j.png]] | ||
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=== Analysis 2 === | === Analysis 2 === | ||
[[Category:QuiXoT]] | [[Category:QuiXoT]] |
Revision as of 08:33, 27 April 2017
Here we describe some of the features of QuiXoT you can use in everyday's work analysing quantitative proteomics experiments. If this is the first time you run the program, you might be interested first in checking the unit tests for QuiXoT.
Analysis 1
We will check some features using the 18O experiment using high resolution spectrometry, which we can see in the Test 1 of the unit test. If you didn't generate the QuiXML file (including quantification and statistics) following those steps, you can use the file VSMC_QuiXML_bs_quant_stats.xml in the VSMC_result folder (remember to move this file together with the binStack if you want to see the spectra; or just use the QuiXML alone if you do not need them).
1) Open QuiXoT.exe, drag and drop anywhere on its window the abovementioned QuiXML file, and select the 18, HR, SEQUEST strategy. You should see this window:
2) We might want to start checking how are the spectra (if you didnot copy the binStack, you can skip this). Click on button spectrum, and then click on any row in the datagrid. For the fourth row (with FirstScan = 8502) you should see something like this
The experimental spectrum is drawn blue colour, while the red colour is the theoretical prediction (taking into account the peptide sequence, the isotope distribution, the labelling, and the labelling efficiency). The "lids" of the quantified peaks depict the tolerance used to consider if the theoretical peak matched (or not) the experimental one (note that there is a minimum "lid size" to visualise it). We can enlarge it to see better:
Or select the first four quantified peaks with the mouse (click and drag horizontally):
In this view we can see that apparently no co-eluted peaks are present.
Note that on the top of the screen we have an indicator of which is the precursor mass of the peptide that has been matched:
Let's look at a specific spectrum. To make it faster, we will filter the spectrum with FirstScan = 3017:
The open the spectrum, enlarge
And then select the third quantified (red) peak:
This is a clear example of a co-eluted peak, so we can label that peak to filter it out of the statistics later. We can go to the Label4 column, and directly write down s_coelution (or any other tag we prefer, as far as we can filter it easily later; starting the tags related to scans as s_, those related to peptides as p_, and those related to proteins as q_ is a good practice to distinguish between filters):