Entering edit mode
5.6 years ago
Glory Basumata
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140
I have a list of differentially expressed genes (human) which I would like to validate through wet lab. One of the gene in normal condition do not have any read aligning to the reference genome while the treated sample has quite a lot of reads. I am curious to know is there a specific range or percent of quantification you follow before confirming the finding through RT-PCR.
Attached Image Link: sashimiplot https://ibb.co/y4Zx8Wz
Is that result (no reads aligning in a sample) supported by adequate biological replicates? If you have ample replicates (min 3, all showing no alignment in one condition and lots of reads aligning in other) then it would be worth a further check. If you are going on
n=1then you could try it at your risk.Hi genomax, Thanks for your response. I should have originally posted with the image. Yes I am working with a replicate (n=3). I have attached a link above with sashimiplot for the same gene. Kindly have a look at it. I appreciate your help.
IMHO, this is more of a biological question than a computational one. Whether it's qval, log2fc, or any other relevant measurement, you'll need a predefined set of thresholds to determine a short list of interested genes. Does the differentially expressed gene make biological sense given the experiment? Do you expect that change given the treatment? If you're measuring gene expression via tarqman qPCR, are you doing it in the same cell or tissue where the sequencing data was generated from? If so, are the 50 or so reads you get in the treated cohorts (out of the unknown number of reads sequenced) enough to be sufficiently detectable?
The computational evidence speeds up the initial discovery process. Translating in-silico to in-vitro/vivo should be biologically motivated. IMHO.