We are working on a new de novo sequence for the little skate shark ((Leucoraja erinacea), an interesting system to study developmental biology. The skate has a BIG genome, estimated at 4 Gb (bigger than human), so this is going to be a difficult project. The existing skate genome in Genbank and the SkateBase website is not in very good shape (3 million contigs with N50 size of 665 bp).
We got a couple of preliminary Oxford MinION reads from skate DNA - not nearly enough coverage to make a dent in this project, just having a look at the data. Oxford produces two kinds of data (in their own annoying FAST5 format, but I won't rant about that right now), single pass 1D and double pass 2D. [My Bioinformatics programmer Yuhan Hao did this analysis.] Here is what our data looks like.
So the 1D reads are really long - some more than 50 kb. The 2D reads are mostly 2-10 kb. The SkateBase has a complete contig of the mitochondrial genome, so we were able to align the Oxford sequences to this as a reference. Coverage was low, but we do have some regions where both 1D and 2D reads match the reference. What we can see is that the 1D reads have a lot of SNPs vs the reference, while the 2D reads have very few SNPs- so it is clear that the 2D reads have been successfully error corrected. Strangely, both the 1D and 2D reads have a lot of insertion-deletion errors (several per hundred bases) compared to the reference, and in fact they do not match each other - so we consider these to all be novel, uncorrected errors.
