I'm study the Alternative splicing events of RNA-seq. I saw a artical, which said:

It was worth mentioning that some splicing transcripts of a certain gene were differentially expressed in different libraries. We called these genes differentially expressed transcripts (DETs). And then, author compulated the expression (FPKM) of all splice transcripts of (DETs)

Firgure.1 part of the Splicing transcripts and gene structures, becaues of the size of picture, I just pasted a part of the picture.

Figure.2 The FPKM of splice transcripts.

I don't know how to compulate the FPKM of splice transcripts, or which software can calculate the values. If possiable, I also want to know how to draw the pictures like Figure. 1

It might help if you link the acutal paper - but here is what I think is going on:

There are two parallel analysis going on:

1. Quantification of transcript data (resulting in FPKM values). Loads of tools for that - see my discussion here.
2. A toolwhich detect differential splicing. Also loads of tools for that.

The neat part is that if there is alternative splicing that will result in a different transcript - which means that you can identify the whole transcript that is changing.

Tools for doing the quantification can be found via the link above. A nice tool for analysing the result (and consequence) of alternative splicing is my R package IsoformSwitchAnalyzeR which can both identifying and visualize such isoform switches (both individual and genome wide). Examples of visualization can be seen here.

You calculate RPKM/FPKM using simple three steps. 1-Count up the total reads in a sample and divide that number by 1,000,000 – this is our “per million” scaling factor. 2-Divide the read counts by the “per million” scaling factor. This normalizes for sequencing depth, giving you reads/fragments per million (RPM/FPM) 3-Divide the RPM values by the length of the gene, in kilobases. This gives you RPKM/FPKM.