Kit for fast isothermal RNA amplification with green-fluorescent DNA stain
Isothermal Amplification
| Cat. No. | Amount | Price (EUR) | Buy / Note |
|---|---|---|---|
| PCR-540S | 200 reactions x 20 μl | 358,00 | Add to Basket/Quote Add to Notepad |
| PCR-540L | 5 x 200 reactions x 20 μl | 1.432,00 | Add to Basket/Quote Add to Notepad |
For general laboratory use.
Please centrifuge briefly before opening (volume ≤2 ml).
Shipping: shipped on gel packs
Storage Conditions: store at -20 °C
avoid freeze/thaw cycles
store dark
Shelf Life: 12 months
Form: liquid
Spectroscopic Properties: λexc 483 nm, λem 503 nm (dye bound to DNA)
Content:
| Component | Cap | PCR-540S | PCR-540L |
| RT-LAMP Buffer | yellow | 1 ml | 5 x 1 ml |
| RT-LAMP Enzymes | red | 200 μl | 5 x 200 μl |
| RT-LAMP Dye | green | 160 μl | 5 x 160 μl |
| PCR-grade Water | white | 1.2 ml | 3 x 1.2 ml |
Detection
Saphir RT-LAMP Kit synthesizes single-stranded DNA molecules (cDNA) complementary to the RNA template followed by loop-mediated isothermal DNA amplification. The kit additionally contains a green-fluorescent DNA stain that intercalates into DNA during the amplification process and allows the direct quantification of target RNA by fluorescence detection (analogous to real-time RT-PCR).
Assay design
Isothermal amplification is an extremely sensitive detection method and special care should be taken to avoid contamination of set-up areas and equipment with RNA/DNA of previous reactions.Preventing amplification in no-template controls due to carry-over contamination or amplification of unspecifically annealed primers or primer dimer formations can be challenging.
Primer design
Typically, 4 different primers are used to identify and amplify a distinct gene region allowing the specific amplification of a target gene. An additional pair of primers further accelerates the amplification allowing to cut down the total detection time to 10-20 min.
The manual design of primers may be difficult due to the complex reaction sequence. To simplify the design process the use of a primer design software is recommended.
As sensitivity and non-template amplification of in-silico designed primers may vary, the evaluation of 2-4 real primer sets before choosing a final set is recommended.
Assay set-up
A reaction volume of 20-50 μl is recommended for most applications. Pipet with sterile filter tips and perform the set-up in an area separate from RNA/DNA preparation or analysis. No-template controls should be included in all amplifications.
First, prepare a 10 x conc. primer pre-mix. Second, set-up the isothermal amplification assay:
| component | stock conc. | final conc. | 20 μl | 50 μl |
| RT-LAMP Buffer | 4 x | 1 x | 5 μl | 12,5 μl |
| RT-LAMP Enzymes | 20 x | 1 x | 1 μl | 2,5 μl |
| RT-LAMP Dye | 25 x | 1 x | 0.8 μl | 2 μl |
| Primer Mix | 10 x | 1 x | 2 μl | 5 μl |
| Template RNA | <100 ng/assay | x μl | x μl | |
| PCR-grade Water | fill up to 20 μl | fill up to 50 μl |
Trouble shooting
If amplification in no-template controls occurs the following points should be reviewed.
Cross contamination from environments
Carry-over contamination from previous reaction products
Non-template amplification from primers
