RNA synthesis via in vitro transcription with reduced dsRNA formation using a modified T7 RNA Polymerase (T7 PURE)
| Cat. No. | Amount | Price (EUR) | Buy / Note |
|---|---|---|---|
| RNT-501 | 50 reactions x 20 μl | Add to Basket/Quote Add to Notepad |
For general laboratory use.
Shipping: shipped on gel packs
Storage Conditions: store at -20 °C
avoid freeze/thaw cycles
Shelf Life: 12 months after date of delivery
Description:
HighYield T7 PURE RNA Synthesis Kit is designed to produce large amounts of RNA via in vitro transcription with reduced double-stranded RNA (dsRNA) formation using a modified T7 RNA Polymerase (T7 PURE).
dsRNA is a critical transcriptonal by-product of wildtype T7 RNA known to trigger an innate immune response and reduction of dsRNA levels requires time-consuming multi-step chromatographic purifcation [1-4]
HighYield T7 PURE RNA Synthesis Kit is therefore ideally suited for the preparation of RNA probes were the dsRNA impurity level is critical for the subsequent application (e.g. mRNA preparation for cell culture experiments). It reduces down-stream purification efforts to reduce/remove dsRNA contamination.
One kit contains sufficient reagents for 50 reactions of 20 μl each (7.5 mM each NTP). A 20 μl reaction yields about 100-120 μg RNA after 30 min and 140-160 μg RNA after 2h incubation (1 μg T7 control template, 1.4 kb RNA transcript). Yields may however vary depending on the template (promoter design, sequence length, secondary structure formation).
Content:
HighYield T7 PURE RNA Polymerase Mix
3x 40 μl incl. RNase inhibitor and 50 % glycerol (v/v)
HighYield T7 Reaction Buffer
1x 200 μl (10x), HEPES-based
ATP - Solution
1x 100 μl (100 mM)
GTP - Solution
1x 100 μl (100 mM)
CTP - Solution
1x 100 μl (100 mM)
UTP - Solution
1x 100 μl (100 mM)
T7 G-initiating control template (1.4 kbp)
1x 10 μl (200 ng/μl), 1.4 kbp PCR fragment plus T7 class III phi6.5 promotor resulting in ~1400 nt RNA transcript
T7 A-initiating control template (1.4 kbp)
1x 10 μl (200 ng/μl), 1.4 kbp PCR fragment plus T7 class II phi2.5 promotor (A-initiating) resulting in ~1400 nt RNA transcript
PCR-grade water
1x 1.2 ml
DTT
1x 150 μl (100 mM)
To be provided by user
T7 Promotor-containing DNA template
RNA purification tools, RNAse-free DNAse I
Important Notes (Read before starting)
Prevention of RNAse contamination
Although a potent RNase Inhibitor is included, creating a RNAse-free work environment and maintaining RNAse-free solutions is critical for performing successful in vitro transcription reactions. We therefore recommend
Template requirements
Minimum T7 promotor sequences:
T7 class III phi6.5 promotor
5'-TAATACGACTCACTATAGNN…-3’
Bold: First base incorporated into RNA, NN: ideally CG
or
T7 class II phi2.5 promotor
5'-TAATACGACTCACTATTANN…-3’
5'-TAATACGACTCACTATAANN…-3’
Bold: First base incorporated into RNA, NN: ideally GG
In vitro Transcription protocol
The protocol is optimized for 1 μg DNA template (refer to "Important Notes" regarding template requirements).
| Component | Volume | Final conc. |
| PCR-grade water | X μl | |
| HighYield T7 Reaction Buffer (10x) | 2 μl | 1x |
| DTT (100 mM) | 2 μl | 10 mM |
| ATP (100 mM) | 1.5 μl | 7.5 mM |
| UTP (100 mM) | 1.5 μl | 7.5 mM |
| CTP (100 mM) | 1.5 μl | 7.5 mM |
| GTP (100 mM) | 1.5 μl | 7.5 mM |
| Template DNA | X μl | 1 μg |
| HighYield T7 PURE RNA Polymerase Mix | 2 μl | |
| Total volume | 20 μl |
Please note: Reagents for the following steps are not provided within this kit.
DNA template removal
Depending on the down-stream application, removal of template DNA might be required. We recommend a salt-resistant, high efficiency DNAase such as Turbo™DNAse (ThermoFisher). Follow the manufacturer instructions.
Removal of 5'-triphosphate groups
5'-ends of in vitro phosphorylated RNAs carry a triphosphate group that is known to trigger RIG-1 mediated innate immune response in mammalian cells[4,5]. Removal with phosphatases (e.g. CIP) before final purification is therefore recommended for RNA probes intended for transfection experiments. Please refer to the following references for more detailed information: [5],[6].
RNA purification
Purification of RNA is required for certain applications such as RNA concentration mesurement. Spin column purification will remove proteins, salts and unincorporated nucleotides. Please follow the manufacturer instructions and ensure that the columns match with product size and possess a sufficient binding capacity (e.g. RNA Clean & Concentrator™ columns (Zymo Research) or Monarch® RNA Cleanup kit (NEB)). Other RNA purification methods such as LiCl precipitation may work but have not been tested.
RNA quantitation
RNA concentration can be determined by absorbance measurement at 260 nm (A260) according to the Law-of-Lambert-Beer (A260 = 1 corresponds to 40 μg/ml ssRNA).
BIOZ Product Citations:
Selected References:
[1] Nelson et al. (2020) Impact of mRNA chemistry and manufacturing process on innate immune activation. Sci.Adv. 6:eaaz6893.
[2] Mu et al. (2018) An origin of the immunogenicity of in vitro transcribed RNA. Nucleic Acids Res. 46(10): 5239.
[3] Karikó et al. (2011) Generating the optimal mRNA for therapy: HPLC purification eliminates immune activation and improves translation of nucleoside-modified, protein-encoding mRNA. Nucleic Acids Res. 39(21): e142.
[4] Baiersdörfer et al. (2019) A Facile Method for the Removal of dsRNA Contaminant from In Vitro-Transcribed mRNA. Ther. Nucleic Acids 15: 26.
[5] Wienert et al. (2018) In vitro transcribed guide RNAs trigger an innate immune response via RIG-I pathway. PLoS Biol. 16 (7): e2005840.
[6] Kim et al. (2018) CRISPR RNAs trigger innate immune responses in human cells. Genome Res. 28 (3) :367.
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