We are testing the Agilent stranded kit in the next couple of weeks. I'll try to get back to this thread to mention the outcome. Good to see ETHANol again.

I used the same program as for standard TruSeq RNA kit (50 minutes at 42C). I will sequence these libraries soon and will write here about results.

You want to watch for adding too much RNA -- the probes/beads can become overloaded and not remove enough rRNA. Contrariwise, if not enough RNA is there, or you don't aliquot out enough SA beads, you get probe contamination of your libraries. Bummer! Get used to eyeing those magnetic bead pellets to make sure they are big enough.

About pooling -- erg, sore subject. Well, we do a bioanalyzer chip first to make sure we have something and determine its size after amplification. Then we do qPCR on each of the components of the pool. Then we make the pool. Then we run another high sensitivity chip and do a final pool qPCR.

I think everything goes much smoother if your libraries are size selected on a gel and thus have a tight distribution. Clustering itself has this intense size bias, with the shortest amplicons seeming like they always cluster and the longest ones seeming like they never do. Correcting for that is unnecessary with tight bands, nearly impossible with wide ones. Well, speculation on my part entirely, though.

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Phillip

Then we cluster at 15 pM. And... well we usually hit reasonable cluster densities on the flow cell. But frequently the spread on the number of reads for various components of the pool is 3x or higher.

Phillip, In my experience the ActD prevents DNA synthesis during first strand synthesis, but does not stop RNA synthesis. Haven't seen a significant difference between 15-50 minutes.

Noticed that TruSeq Stranded doesn't have a UDG step. Seems like they rely on their polymerase to not read through dUTP bases. Does anyone know what polymerase this is? Has anyone added the UDG step anyway and compared strandedness? I didn't understand this comment earlier in the thread, "No UDG step is required in Illumina protocol since they are ligating adapters first"

Thanks for bringing this to our attention. Yes the old (non-stranded) kit used the same RT at 70C for 50 minutes.

Is 15 minutes long enough. Well, we have made a bunch of libraries this way and they do work. However we noticed a recent decrease in yield with this kit. That is, previously we would get so much library that we cut back from 15 amplification cycles to 8. Now we tend to do 12-15 cycles.

However, it may well because of the issue you mention. The kit will have been optimized for typical RNAseq "counting" experiment. These are often done with single reads. So insert sizes beyond 100 nt are not needed. However we frequently do de novo transcriptomes. For these we think there is an advantage to using paired end reads and therefore want larger inserts.

With the old (non-stranded) kits, this was not an issue. As long as you reduced the fragmentation time, you could create cDNAs that were >2kb, if you wanted. (Well, you also needed to size select some how to get rid of the shorter insert stuff.)

But it could be that 15 minutes just does not get out to the distance we want.

RNA synthesis? Reverse Transcriptase, as far as I know, can't synthesize RNA. Both of its pol activities are DNA pol. But one is RNA templated (RT) and the other is DNA templated (2nd strand).
I don't know.

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Phillip