Clive Brown (left) showing the minION at their ASHG 2012 booth. Matthew Hickenbotham, colleague at Life Technologies, at right.
Here at ASHG 2012 in San Francisco this week, a ton of activity around the exhibitors, and Life Technologies does not disappoint with the Ion Bus on the show floor, an open 20 foot x 30 foot booth, a new digital PCR instrument (the QuantStudio 3D) introduced, two luncheon workshops, an Ion Torrent User Group meeting, a special SF Museum of Modern Art event on one evening, and an Ion Lounge evening event on the other. (These last two events were described internally as ‘networking only’, which is a code-word for a great social event.)
As one of the crew involved with these events you can describe my feelings this Friday morning of this conference as one of exhaustion, but on the other hand the time and effort was well-spent.
On the first day of the show, it was clear that not only did Oxford Nanopore have a booth, but a very attractive presence on the show floor, and two former colleagues who I visited with briefly before they were swamped with customers. But visiting a bit later I was able to snap a picture of Clive Brown, a company founder, along with a colleague of mine Matt Hickenbothom (on the right), showing the minION unit in a removable case. About half the width of an iPhone but about double the thickness, I noticed a miniUSB port on one side, some interesting fluidic channels on the back and an electronic board with a small fan on the front.
Later that day I met a customer on the Ion Bus, who was doing some interesting work on Fragile X syndrome, which requires long reads (and thus their interest in who long the current PGM reads are, as they use 454 sequencing for their research on tri-nucleotide repeats). He told me that Oxford Nanopore was offering a ‘personal demo’, and while not clear on what was going to be presented, he was going to go back and take them up on their offer.
Fast forward to the Ion Lounge event, and I have the good fortune to run into the same customer I met on the bus. (It is not a given that anyone I invite to an event will come, nor is it a given that I will be able to visit with them as there was about 350 people at this party networking event.) He tells me that in his opinion Oxford is doing exactly what Pacific Biosciences did during their introduction – promising quite a lot, and then delivering much less than that.
In particular, he was able to get a ‘personal demo’ due to his research interest, and that it basically comprised of a detailed description of how the technology worked (which he already knew) and a walkthrough of their software for analysis. The disappointment over not seeing sequencing data was palpable in my conversation with him, and we discussed some of the challenges of being able to determine sequence from individual DNA molecules. (You can see some of my prior opinion on just measuring single molecule signals here.)
One of my prior colleagues who is now at Oxford told me that they are delaying their commercial launch as they want to raise their accuracy to the bar of other NGS, namely to 99%. (In a Bio-IT World interview right before the AGBT meeting in Marco Island in February, they said they could get on the order of 97% accuracy.) So there’s a plausible ‘official’ rationale for the product introduction delay. Yet after all the activity around the booth, very little ‘news’ from there, other than the publicity of the ‘hands-on’ nature of seeing development prototypes. (I overheard that the existing minION unit would be commercially launched at about one half the length.) Other than the accuracy goal, there were no throughput or read number specifications (or even ball-park estimates) of the minION and gridION units, so no news on that front. Come to think of it, no one spoke to me about pricing either.
One other item of note, among the many conversations I’ve had the privilege to participate in this week – several groups have indicated they’ve submitted early-access collaboration samples to them (being qualified as having genuine research problems to solve, like the Fragile X example above), but no data has been returned yet. I would imagine that once that data is returned I would hear about it, although with early products from a company getting off the ground, these kinds of projects are protected by a non-disclosure agreement (NDA). So people saying they ‘don’t have any data’ have plausible reason to deny they don’t have any data, because they are forbidden by their NDA not to talk at all about it.
In other single-molecule news, BioNano Genome had a launch workshop of their Irys system (I wrote about them here) but according to my sources what they have launched is an early-access program, not a commercial product yet. Launch is set for the spring of 2013, assuming all the technical difficulties that arise in field testing get solved. It’s an interesting technology as a complement to NGS, however it only looks at part of the overall genomic organization question (mapping genome copy number).
Lastly, many thanks to the several people who went out of their way to make kind comments about this blog. It has given me a needed boost to continue writing about what is going on. More to come next week about other observations from ASHG.
Since you mention about Fragile X, I think this review is just a little bit bias not mentioning this paper:
“Sequencing the unsequenceable: Expanded CGG-repeat alleles of the fragile X gene.”
Genome Res. 2012 Oct 11.
http://www.ncbi.nlm.nih.gov/pubmed/23064752
This “no data” is certainly a big problem for ONT. I can’t see any reason why they are holding back on that. For that matter, if I wanted to stage a huge fraud, I’d actually provide data! But only very little, such that you wouldn’t see the markov chain behind it!
Anyway, Illumina has a 15% stake in the company, which makes me think that they aren’t committing fraud. Illumina might be using ONT as a distraction to extend the life cycle of their technology, but that would probably be too “evil” and they would surely come to regret that choice…
I did not mention the ongoing arbitration going on between Illumina at ONT – which could well be the reason why they did not announce data or specifications, as the value of such legal proceedings is very high. (I.e. ILMN has a 15% stake, and ONT could be ‘approaching’ $2B. http://www.bio-itworld.com/2012/11/05/oxford-nanopore-illumina-arbitration-regarding-sequencing-partnership.html
Thanks, that explains a lot. If they fear being out of bussiness due to legal issues soon, or expect a huge cost avoiding this, it really makes no sense for them to show what they got.
The disappointment was palpable around Oxford Nanopore’s booth at ASHG. Not having any “real data” was, well, a real letdown for the science community who has been eagerly awaiting its debut. However, we did glean some interesting tidbits from conversations with the Oxford Nanopore team. 1) They currently have read lengths well in excess of 10,000 bases, some over 100,000 bases and their target is to get to megabase length reads.2) They are planning to halve the instrument size once the base calling tools are fixed, by removing a processor and hard-wiring the base caller on a chip, and this will reduce the cooling needed, so the cooling unit can shrink. Also, the system they currently use for transferring liquids is an expensive development version, which they can replace with a much simpler (cheaper and smaller) system, so the ‘rack system’ units could be as small as half the size.3) The minion system is like a fattened up USB drive, rather than half an iphone, and can be loaded and run when plugged into a PC4) There is little or no sample prep required (library prep for current NGS methods can take weeks and cost quite a bit too)Looking forward to them hitting 99% accuracy.
Thank you for the input Angela – this information is useful, and I haven’t seen it before. One question is the distribution of those readlengths they claim; back in the PacBio days it was a single read that would be often reported, yet the modal distribution was so much lower; did they indicate anything of that sort?
The ‘no sample prep required’ had been mentioned at AGBT earlier this year when they made their big splash, and certainly sounds promising.
Even if it were only 2Kb reads at 99% accuracy, that would prove such a boon to genomics / genetics research the impact is hard to describe to the ‘layperson’ outside of our field. The market need is certainly there, and as long as the market forces are at work the goals will be aggressively pursued. (And it might be 2 years, 5 years or even longer, but I do believe we will get there eventually.)
Thanks again – Dale