Tweet
I have not once been able to fully dissolve the precipitate in the emPCR additive, even after heating to 55C. It does not seem to affect the sequencing results but I have noticed especially with the LV reaction that this precipitate seems to reappear during bead recovery and makes the bead pellet very difficult to break up after centrifugation.
-
-
We have also seen a crystallized precipitate after heating GC additive. I suggest spinning down the tube after heating and only removing GC additive that is found above the pellet. We have found GC additive to aggregate around the bead pellet during LVE breaking, which disrupts washing and enrichment. -
Hi Cambridge454,
Allow me to lend a hand. Are you familiar with Technical Bulletin 011-2009? If not, it is available on the my454 customer site
(http://www.454.com/my454) under the "Technical Bulletins" section.
Section 3.1 of that document, Step 1c. reads as follows:
"If a precipitate is observed after thawing the tube of emPCR Additive, vortex the tube well to dissolve it.
If precipitation remains in the emPCR Additive after vortexing, heat the reagent
to 55°C in a heat block for up to five minutes to aid in dissolving. If residual
precipitate remains, briefly centrifuge the tube and use the supernatant in the
preparation of the Live Amplification Mix."
In other words, the recommended course is to avoid carrying over residual precipitate, as suggested by guz.
Best regards,
Jason
Technical Product Manager
454 Life Sciences, A Roche CompanyTechnical Product Manager
454 Life Sciences, A Roche CompanyComment
-
Hi Jason,
Yes, I have read and followed the instructions regarding the additive in the Technical Bulletin 011-2009. There appears to be no precipitate in the Live Amp Mix, it only reappears again after bead recovery in the LVE, which makes the bead pellet very difficult to resuspend and wash.Comment
-
I think I have a fix for this issue you mention (from TCB-09011). I believe the issue derives largely from this section of the protocol (section 3.5 "Bead Recovery):Originally posted by Cambridge454 View Post
The problem is that 1X Enhancing Fluid TW appears to cause the waxy deposit that makes resuspending the beads so difficult. So the longer you spend trying to resuspend the beads, the worse the clumping situation becomes.4. Add 10 ml of 1X Enhancing Fluid TW and vortex well to resuspend. If vortexing is not
sufficient to resuspend completely, use a glass rod or a spatula to break bead aggregates.
Note: It is important to fully suspend the bead suspension before adding
isopropanol in the next step to ensure complete mixing and to prevent clumping.
If, instead, you add the 1X Enhancing Fluid TW, vortex briefly and immediately add isopropanol, the formation of precipitate is much less. Clumping then does not seem to be an issue.
--
PhillipComment
-
Thanks for the advice. I think this might be my problem, as I usually pour off the isopropanol supernatant, add the 1x Enhancing Fluid TW, vortex, vortex, vortex, break clumps with glass rod, vortex, vortex, vortex, then add isopropanol.
Will give your fix a try.Comment
-
We've found that trying to use a spatula to break up the aggregates makes the clumping worse. Vortex well after additing the Enhancing fluid and then go right to the isopropanol as mentioned above. Better to spend more time vortxing after the isopropanol addition that before. I've managed to get rid of all of the clumps this way.Comment
-
Anybody know what the emPCR additive is?Comment
-
To avoid clumping I use 4 syringes per 1 cup of oil and have bead recovery rate around 80%. When using this technique I don't have problems with oily and waxy beads, and with clogging coulter counter orifice anymore.Comment
-
I have heard it referred to as a polymerase "stabilizer" by one of the "old ones"[1]. That doesn't tell you much -- even if it is correct, however.Originally posted by Old guy View Post
--
Phillip
1. By "old one", I mean someone who ran the instrument back when it was in its original incarnation as the GS-20.Comment
-
Many organizations study rare diseases, but few have a mission as impactful as Rady Children’s Institute for Genomic Medicine (RCIGM). “We are all about changing outcomes for children,” explained Dr. Stephen Kingsmore, President and CEO of the group. The institute’s initial goal was to provide rapid diagnoses for critically ill children and shorten their diagnostic odyssey, a term used to describe the long and arduous process it takes patients to obtain an accurate...12-16-2024, 07:57 AM -
Innovations in next-generation sequencing technologies and techniques are driving more precise and comprehensive exploration of complex biological systems. Current advancements include improved accessibility for long-read sequencing and significant progress in single-cell and 3D genomics. This article explores some of the most impactful developments in the field over the past year.
Long-Read Sequencing
Long-read sequencing has seen remarkable advancements,...12-02-2024, 01:49 PM
Comment