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Old 08-12-2019, 05:02 AM   #17
Haiqu
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Location: Australia

Join Date: Aug 2019
Posts: 19
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Quote:
Originally Posted by gringer View Post
Customers don't pay return shipping to the UK. That cost is met by ONT, even for flow cells that are being returned from New Zealand. I suppose if you want to be cynical, you could say the return shipping cost is included in the price of the flow cells.
The return shipping price is built into that exorbitant $900.00 per cell.

Quote:
You can either multiplex and reduce the per-sample cost, or not multiplex and get a higher yield per sample. Flongle flow cells ($100 USD each, for about 1/10 of the yield) make that decision a bit more palatable. There's essentially no learning curve for rapid barcoding on top of standard rapid sample prep. Here's the normal sample prep:
  1. Add 2.5μl fragmentation mix to 7.5μl sample in a sample tube
  2. Heat to 30C for 1 min, then 80C for 1 min
  3. Add 1μl adapter mix, Wait 5 mins
  4. Mix with sequencing buffer and load onto flow cell

Here's the barcoded sample prep:
  1. Add 2.5μl barcoded fragmentation mix to 7.5μl of each sample in a sample tube
  2. Heat to 30C for 1 min, then 80C for 1 min
  3. Mix all the prepared samples together
  4. Put 10μl into a new tube
  5. Add 1μl adapter mix, Wait 5 mins
  6. Mix with sequencing buffer and load onto flow cell

Sure, it's two more steps, but it doesn't involve any more learning.
Doesn't sound too bad, but you're glossing over the process needed to barcode the samples. That might well be simple too, but from here I can't tell. It's also a trade-off between number of samples and test resolution. I can't see 800 cells / 12 barcoded samples being particularly useful except perhaps for identifying well-known small virii. I expect to be doing de novo plant work at first, and from what I've seen of other people's work online, they go through a full MinION cell per test and still have trouble piecing together a complete sequence.

But as I've said, I am a noob, albeit a determined one. I'll get back to you in three months when I've completed the MIT 7.00x Introduction to Biology course I just started. After which I'll be doing the 7.QBWx Quantitative Biology Workshop, to be able to handle the data crunching we already discussed.

Quote:
The 12-week shelf life is ONT's warranty period. Many ONT community users (including me) have found that flow cells will last for over a year. I have done washes of used 6-month-old flow cells with well-expired rapid kits, and got enough sequence out of the flow cells to assemble viral genomes.
From what I read, they have to returned if not used within 12 weeks, but I can't imagine anyone taking that seriously. They certainly need to be tested within that timeframe for warranty coverage.

Quote:
For some people, I appreciate that the cost of a $100 flow cell will be beyond them, and they may not be able to take 1/144th of a rapid barcoding kit from someone who has some spare. But saying that's completely out of the price range of a hobby / home user seems a bit odd to me.
The US$90 flow cell is used with the Flongle, which is another US$1,860 on top of the cost of the MinION. So now, with chemicals, we're up well over three grand for that first sample test. That's why I'm so disappointed that the SmidgION isn't available yet, it's an all-in-one unit. However I don't expect it to be very useful, and the value for money will always with the unit that handles the most workflow.
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