hi, rmberka
I'm new here too. Our data was analyzed by the company who sequenced for us (including determined differentially expressed genes). they used a software developed by themselves. But i think u can use other methods/softwares to deal with your data, like DEGseq (http://www.bioconductor.org/packages...ml/DEGseq.html).
Good luck!

Thanks, Dennis.
I actually found a very recent paper on this topic and other readers may also find it of interest. See Bullard, JH et al. 2010. Evaluation of statistical methods for normalization and differential expression in mRNA-Seq experiments. BMC Bioinformatics 11: 94 doi:10.1186/1471-2105-11-94

DE analysis of RNA-seq data

Hi all

A couple of quick points:

1. Tools such as SAM designed for analysing microarray data will not be optimal for RNA-seq data. The discrete nature of RNA-seq data (as opposed to continuous responses in microarray data) requires different mathematics and therefore new tools for the best assessment of differential expression. There are currently four software tools available for DE analysis of RNA-seq data: baySeq, DEGseq, DESeq and edgeR. I am one of the developers for edgeR, so I recommend this one

2. These tools will give sensible fold changes even when comparing groups with some zero counts. Typically, you should not do RPKM normalization before using these tools, although some normalization is recommended. In particular, TMM normalization (Robinson and Oshlack, 2010), which is supported in edgeR.

I have discussed a possible RNA-seq analysis pipeline here: http://seqanswers.com/forums/showthread.php?t=5248

Hope that the discussion is useful.

Best regards
Davis

Thank you

Dear Davis,

Many thanks for your reply. This is very helpful information indeed. We had actually come across the paper describing edgeR and we were just about to give it a try!

Cheers and thanks again!!!

Great to hear that you're planning to give edgeR a try - I hope you find the software helpful and of course get in touch if there is anything further I might be able to help with.

Cheers
Davis

Fdr

Hi,

I'm not sure if this is the right place to ask this question but I'll give it a try and see if anyone can help me out.

I've analysed my data for DE using edgeR. However, I have a question about the false discovery rate. I am comparing two treatments, each with 6 biological replicates. I understand how the FDR (BH) works but I would like to know if anyone thinks this is absolutely necessary even to the detriment of biological significance? The problem I come across is that I have a number of genes that are significantly differentially expressed based on uncorrected P-values of <0.01 but when I correct for FDR (<0.05) I end up with very small numbers (~50). I have investigated this and used GOseq to correct for length bias. I have also run this data through a pathway analysis tool and find that the uncorrected p-values turn up genes that would appear to be biologically significant.

I don't want to report results that are misleading but I also don't want to mask any biological effect. What is the common practice here and do many people use FDR or do some report as p-values (<0.01)? Is it alright to publish without using FDR?

Thanks in advance!

can you please tell me if I can use edgeR for time course analysis (control vs mutant) at different time points? I want to do differentiation expression throughout the time course. I have tag counts data. thanks in advance.