Hi,

I have three transcriptome assemblies representing two different tissues from three different species within the same genus. Each transcriptome assembly consists of three biological replicates (two tissues from each individual, so six RNA-seq libraries per transcriptome assembly). I have Salmon generated TPM values across all three assemblies for each RNA-seq library.

One of these species has an ecological trait that the other two species have, but to a much lesser extent, and it's hypothesized that this ecological trait in sp.1 is attributed to a novel protein found only in this genus and is highly expressed within the aforementioned tissues (we already know it's highly expressed for sp. 1). When I look at the TPM value for this transcript in sp.1, it is among the top 10 most highly expressed transcripts (which we predicted), however, the TPM values for this transcript in the other two species is much lower (which we also predicted).

Is it okay to directly compare TPM values for the same transcript across three different transcriptome assemblies from three different species? Can I infer that this transcript is more highly expressed in sp.1 relative to the other two species? I cannot find any literature or posts in regard to this, if you can point me to any resources, PLEASE DO.

Thanks.

I cannot find any literature or posts in regard to this, if you can point me to any resources

You cannot because is not possible to compare expression between 2 different species, there are many biological factors that will affect your quantification even if this is normalized in TPM. The best you can do is to declare what you found, the gene in Specie 1 is highly expressed, meanwhile in Specie 2 is not.

As JC pointed out, comparing absolute expression levels across species is probably not very meaningful. You may just want to resort to rank-based comparisons, which is something you seem to have done already. One thing you may want to consider checking is for differences sequence composition (i.e. GC bias); if those are quite different between the species, you would have to correct for it (because they will influence the number of reads that will be assigned to the individual transcripts).

Whether there's any biological meaning to your observation will have to be determined with other means anyway, i.e. who's to say that the two species where that gene does not seem to be in the top 10 expressed genes simply don't need such high levels of it because they're better at keeping it around/not destroying it etc. etc.

I have to say I tend to disagree with JC and Friederike. According to this blogpost by Harold Pimentel (co-author of Kallisto) the interpretation of a TPM values is:

if you were to sequence one million full length transcripts, TPM is the number of transcripts you would have seen [...], given the abundances of the other transcripts in your sample.

This means that TPM is a relative measure within a condition and thereby they should be comparable across condition/species - right?