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RScript Reverse Transcriptase|50 Reactions

SIZE: 50 reactions

  • Overcome the most challenging RNA structures over a wide temperature range.

    Bio-Helix RScript Reverse Transcriptase - Engineered innovatively and specifically for both Research and Diagnostic applications for meeting all your cDNA synthesis needs and for overcoming the most challenging secondary RNA structures over a wide temperature range. Our next-generation, engineered recombinant M-MLV reverse transcriptase, with improved thermostability, processivity, robustness, optimal cDNA yields, proprietary site mutations for reduced RNase H activity, and extended half-life, is the most versatile reverse transcriptase in the world for not only simply meeting the routine cDNA synthesis requirements but also enabling superior performance for even the most challenging RNA samples at hand.

     

    Figure 1. Stability of RScript reverse transcriptase: 
    The stability RT-qPCR data shows the performance of RScript reverse transcriptase is maintained without any significant alteration in performance at 37 °C after a period of 3 weeks (21 days), demonstrating its high resistance to temperature and time. The percentage of RScript reverse transcriptase activity was calculated by dividing values at each reaction temperature.

     


    A: Bio-Helix RScript reverse transcriptase #RT001-0050/ RT001-0250
    B: Promega Improm II #A3802
    C: Thermo SuperScript III #18080093
    D: SuperScript IV #18090010

    Figure 2. Enhancement of the thermostability:
    Reverse transcription of a 1 kb fragment ARHGAP29 RNA using RScript reverse transcriptase or competitor reverse transcriptases were used to carry this experiment. Regardless of the variations in temperatures (42 -60 °C) RScript reverse transcriptase shows a stable and superior performance at higher temperatures of up to 60 ℃ compared to other brands. The molecular weight marker used was DNA Ladder 1kb #SDL-1000R.

     

    Figure 3. Elongation of RNA templates up to 11 kb in length :
    RScript reverse transcriptase was used in a reaction with a range of human bladder cancer cell lines - 5637 (HTB-9) RNA. The resulting synthesized cDNA (8 kb ,11kb) was followed by PCR and visualized on a 2% agarose gel. The molecular weight marker used was DNA Ladder 1kb #SDL-1000R.

     

    Figure 4. Performance of One-Step RT-qPCR with RScript reverse transcriptase :

    To evaluate the RT performance for the COVID-19 fragments, the N1 gene with 100 copies per reaction was tested in the one-step RT-qPCR. Experiments proved to be feasible and effective (mean Ct : 34.88).

    * COVID-19 fragments were originally obtained from Twist Synthetic SARS-CoV-2 RNA Controls (# EPI_ISL_1662307).

     

    Red: Bio-HeliX RScript reverse transcriptase #RT001-0050
    Green: Improm-II #A3802
    Blue: Superscript IV #18090010
    Figure 5. Performing RT-qPCR with RScript reverse transcriptase :
    At a temperature of 55 °C, RScript reverse transcriptase exceeds performance demonstrating better efficiency and higher cDNA yields. RScript reverse transcriptase shows a stable and superior performance at 55 ℃ compared to other brands. Therefore RScript reverse transcriptase does not encounter significant higher Ct values compared to Improm II and SuperScript IV due to their low amounts of input cDNA.

    *Promega Improm-II #A3802 is a registered trademark of Promega, Thermo Superscript-III #18080093 and Superscript-IV #18090010 are registered trademarks of Thermo Scientific. The trademark holders are not affiliated with Bio-Helix Co., Ltd. and do not endorse these products.