Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have an affyBatch object with gene expression data. The data is read in using dat <- ReadAffy() with no options. I then extract the 5600 genes that I am interested in using, dat <- RemoveProbes(listOutProbeSets, cdfpackagename, probepackagename)

I then normalise the expression data using dat.rma <- rma(dat)

Now I want to the export the raw data AND the rma-normalised data to .csv files. Inspecting the data I find that exprs(dat) has dimensions 226576 by 30 and dat.rma has dimensions 5600 by 30. How do I extract the 5600 by 30 matrix of the RAW expression values? I don't know where the 226576 rows in the raw data have come from!

I'm a bit of a beginner with bioconductor data structures! Sorry for not providing runnable example code - not sure how I would do that in this case.

share|improve this question
1  
No doubt there are experts who work with this sort of data on this forum, but you might have more luck at the biostar.stackexchange.com, which is "stackoverflow" for bioinformatics, computational genomics and systems biology. –  Roman Luštrik Jun 20 '11 at 12:28
    
Thanks! I wasn't aware of that site. –  dynamo Jun 20 '11 at 14:47

1 Answer 1

up vote 0 down vote accepted

During transformation from raw to rma-normalised data, you have, among other things, combined/summarised low level probe intensity values into probe sets values (that map to genes). This explains why you have more features in a raw AffyBatch object than in a ExpressionSet instance (created by the rma function). Also, depending on the chip you have, there are several perfect match (PM) and miss match (MM) probes per probeset, which boosts the number of probes per probeset. The mapping probe -> probeset is defined in the chip definition file and handled automatically.

A few additional thoughts though. Removing probes before doing normalisation might not be a good thing to do. One assumption when performing normalisation is that most of you 'genes' do not change, so keeping only 'those of interest' might break this, depending what 'those of interest' means of course. You can always do your filtering on the ExpressionSet, after normalisation:

> library(affydata)
> data(Dilution) ## gets some test data
> eset <- rma(Dilution) ## rma normalisation
> featureNames(eset)[1:10] ## gets some probesets of interest
> ps
 [1] "100_g_at"  "1000_at"   "1001_at"   "1002_f_at" "1003_s_at" "1004_at"  
 [7] "1005_at"   "1006_at"   "1007_s_at" "1008_f_at"
> dim(eset) ## full dataset
Features  Samples 
   12625        4 
> dim(eset[ps,]) ## only 10 first probesets of interest
Features  Samples 
      10        4 

Hope this helps.

share|improve this answer
    
You are extracting a sample of the data in the eset matrix which contains the rma-normalised expression data. Is there no way to extract it pre-normalisation? It may be that my question doesn't really "make sense" - I'm just research for a request from a colleague. I have done the normalisation after gene-selection since in our case we are certain that we don't want to include the effect of the genes "not of interest". But I will certainly be aware of that in the future! Thanks for your reply. –  dynamo Jun 20 '11 at 14:45
    
There might be other ways, but using the RemoveProves code to extract certain probes of interest before doing any processing is fine. I have use the same strategy it in the past. –  Laurent Jun 20 '11 at 15:55

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.