InvitrogenmMESSAGE mMACHINE™ T7 mRNA Kit with CleanCap™ Reagent AG
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FL - SRC 1-3 肽,100 µM
面议FL - SRC 3-1 肽,100 µM
面议FL PGC1B-1 肽 100µM
面议FL - SRC 1-2 肽,100 µM
面议荧光素-D11-FXXLF 共激活因子肽,100 µM
面议FL - SRC 1-1 肽,100 µM
面议Fl - SRC 2-2 肽,100 µM
面议FL-AR N 端肽
面议TaqMan™ GMO Maize Quantification Kit
面议FL - RIP140L6 肽,100 µM
面议FL-C33 肽,100 µM
面议FL - SRC 3-3 肽,100 µM
面议The mMESSAGE mMACHINE T7 mRNA Kit with CleanCap Reagent AG contains all the reagents and buffers necessary for in vitro synthesis of large amounts of mRNA with the naturally occurring Cap 1 structure for increased translatability in vivo compared to legacy capping methods such as the use of anti-reverse capping analog (ARCA). Each standard 20-μL reaction yields a minimum of 100 μg of Cap 1-containing mRNA, while the scaled-up protocol yields up to 1 mg of mRNA. This kit is suitable for full- or partially-modified-nucleotide substitution to generate modified mRNA.
Features of the mMESSAGE mMACHINE T7 mRNA Kit with CleanCap Reagent AG include:
• Contains proven CleanCap capping technology
• Optimized to achieve high mRNA yields (>5 mg/mL)
• Produces mRNA that is over 90% capped
• Allows use of modified nucleotides
• Includes GFP control template
• Made up of high quality reagents (TheraPure)
• Available in two sizes: 50 and 1000 reactions
The mMESSAGE mMACHINE T7 mRNA Kit with CleanCap Reagent AG contains the trinucleotide cap analog CleanCap Reagent AG, which has the Cap 1 structure and can be used for co-transcriptional capping of mRNA without compromising yield. This reagent produces high capping efficiencies compared to legacy capping reagents such as ARCA. Cap 1-containing mRNAs can have superior translational activities compared to Cap 0 mRNAs produced using ARCA or mCap cap analogs.
A linearized DNA template containing an AG-initiating T7 RNA polymerase promoter is strongly recommended for this kit to achieve mRNA yields >5 mg/mL with over 90% of the transcripts capped. The mRNA produced with this kit can be used for many applications, including transfections, preclinical mRNA therapeutic mRNA studies, microinjections, in vitro translation, and RNA structure and function analysis.