I think the easiest way to ensure consistency is to trim the 75bp reads to 50bp...

Brian, are you saying to trim the 75bp reads down to 50bp and then compare these trimmed reads to the ones that were originally 50bp?

To clarify, the goal at this step is not to use both platforms in conjunction, but mainly to see quantitative differences between the two. It seems a good way to do this is to use the duplicate 50bp and 75bp samples in some way, but we are unsure of a good way to go about this exactly. In the future, we plan to use more 75bp reads over 50bp reads, but we want to be certain this is reasonable action.

Ah, I see - you're trying to decide whether moving to 75bp gives you a better result. That's very hard to do unless you know the correct answer. If you did know the correct answer, I would generate results with 75bp reads, generate results with 75bp reads trimmed to 50bp (which should induce less noise than using real 50bp reads from another run, assuming the only difference is read length), and see which is closer to the truth. But if you don't know the correct answer... I generally recommend generating synthetic data for which you do know the correct answer.

Otherwise, you can only assume that wherever 50bp results differ from 75bp results, the 75bp results are correct and 50bp are wrong. That's probably a safe assumption, if everything is done correctly (bear in mind that adapters and low-quality tails can make longer reads yield inferior alignments), but not provable. However, when doing that, noise could overwhelm the actual signal, which is why I suggest using the same reads and just trimming to different lengths.

Thank you for your informative response. What you said is making a lot of sense, and it seems to be a good choice to proceed with the original plan of just using the longer read platform.

I am wondering though, are 75 bp reads trimmed down to 50 bp reads more accurate than those originally produced as 50 bp (more of a sequencing process question)? Or does base quality degrade at a similar rate regardless of length of read?

In general, the rate of quality decay depends only on read position, not on read length. But there are a couple exceptions:

For single-ended reads, there should be no difference except in the last base; the last base tends to be substantially lower-quality then the second-to-last, so the 50th base of a 75bp read would be more accurate than the 50th base of a 50bp read, but the other bases should be the same.

There might by a slight reduction in quality for read 2 with 2x75bp reads compared to 2x50bp reads, because the cluster has been on the machine longer when read 2 begins.

But those differences should be extremely minor on a modern Illumina machine.

Great, thanks a lot! Very helpful.