Things are going too rapidly ....
A couple of years ago, I would have not doubts. To assemble an 1Gb genome, I would go to Illumina paired-end sequencing along an approach to get a nice scaffolding (either using a short stretch of long reads or a reference). In my opinion, long reads coming from the first generation PacBio devices were too expensive and had so poor throughput that could be used mainly for scaffolding in this range of genomic size (1Gb), substituting with notorious advantages to mate-paired sequences. Nanopore was still in strong development
But only two years later, I have changed my mind substantively. I am not longer thinking in using Illumina reads. Devices such as PacBio Sequel II can now have a throughput of hundreds of Gb with a very high quality due to their CCS (circular consensus sequencing) approach. Reads with very high quality (over Q40) are obtained. Prices went down as well, making it affordable. Nanopore has taken the same approach, and have become a strong contender.
I would like to open this forum to hear from both, your opinions and experiences
Talking about Hi-C..
Has anybody have something to tell about optical maps as a serious contender ?
Optical mapping is very much alive. I have seen some rearrangement data for cancer cells that would not be possible to obtain/visualize with any current long or short sequencing technology.
There is a big technology barrier though. You have to be able to prepare nuclei and then very high molecular weight DNA. Both of these are not trivial pursuits and require manual work/expertise. It is especially difficult for plants, where it would be most useful, but plant cell walls are a big barrier to isolation of nuclei.
If you don't have a reference or know nothing about the genome you can use optical mapping to get an idea of large scale organization to orient your sequencing data.
was a very useful/promising approach until a few years back but has now been (nearly) completely outcompeted by Hi-C methods. Last I heard was that all the optical stuff is being phased out (especially for assembly purposes)
According this article it seems that the optical map approach is very much alive. Wondering for more commentaries. Maybe Hi-C is far more affordable from every perspective..
As they apparently developed a new approach , it would be weird for them to state that the technique is not much used anymore ;) .
As far as I remember the main issue with the optical maps is the it is far from straightforward to create them (despite what others/companies want you to believe) . Which actually also goes for the other map techniques (physical, genetic, ...), when they are around they will most likely be used to increase scaffolding but those are not frequently being created specifically to assists in assembly (in contrast to Hi-C, which is)
Not really with the previous machines (Iris?), but it sounds that the new machines (Saphyr?) could be.