| Description | The StableLink RT-qPCR Kit (with UDG) is a two-component, probe-based RT-qPCR master mix comprising Buffer Mix and Enzyme Mix. It is designed for sensitive fluorescent quantitative PCR detection in single or multiplex RNA targets. Optimized for performance, the buffer system is uniquely formulated The StableLink RT-qPCR Kit (with UDG) is a two-component, probe-based RT-qPCR master mix comprising Buffer Mix and Enzyme Mix. It is designed for sensitive fluorescent quantitative PCR detection in single or multiplex RNA targets. Optimized for performance, the buffer system is uniquely formulated to support both Taq DNA polymerase and reverse transcriptase activity, ensuring broad target compatibility and exceptional reaction stability. This kit incorporates a dUTP/thermolabile UDG carryover prevention system, enabling rapid degradation of uracil-containing contaminants at room temperature. Applications: Qualitative/quantitative PCR, multiplex PCR.Product Component TableU1492587Component100T1000T10000TStorageU1492587AStableLink RT-PCR Buffer Mix1.25 mL12.5 mL125 mL-20℃U1492587BStableLink RT-PCR Enzyme Mix100 µL1 mL10 mL-20℃ ProtocolReaction Setup Preparation:1. Thaw all required reagents at room temperature or 4°C. Mix thoroughly before use.2. Prepare the PCR Reaction Mixture according to the table below:Component Volume for 25 µL SystemFinal ConcentrationStableLink RT-PCR Buffer Mix12.5 µL1×StableLink RT-PCR Enzyme Mix1 µL1×Primer/Probe Mix1 µL/Template5 µL/ddH2OTo 25 µL/Total Volume25 µLNote: "1x" indicates the working concentration of the enzyme mix as provided.The amounts of primers, probes, and template can be adjusted according to experimental requirements.Adjust the volumes of primers, probes, and template as needed for your specific assay; use RNase-Free ddH₂O to bring the reaction to the final volume.To prepare reaction volumes other than 25 µL (e.g., 50 µL), scale the reagent volumes proportionally (e.g., double the volumes for a 50 µL reaction).3. Mixing and Setup:After preparing the reaction mixture, mix gently by pipetting or brief vortexing. Centrifuge briefly to collect the contents at the bottom of the tube. Proceed to PCR amplification.Standard Thermal Cycling Protocol:StepTemperatureTimeCirculation150℃10min1295℃2min1395℃15s45460℃40s (Acquire Fluorescence)45... Read More | Inquire | Product introduction:Used to isolate lymphocytes from human organsMatters needing attention:1. samples, reagents and experimental environment in the whole process shall be carried out at 20 ± 2 ℃. In order to obtain the best experimental results, it is best to carry out the Product introduction:Used to isolate lymphocytes from human organsMatters needing attention:1. samples, reagents and experimental environment in the whole process shall be carried out at 20 ± 2 ℃. In order to obtain the best experimental results, it is best to carry out the experiment within 2 h of sampling. The longer the sample is stored, the worse the cell separation effect is. The separation effect is even worse after the sample is placed for more than 6 h, or even cannot achieve the purpose of separation. 2. in this experiment, it is better not to use plastic products with high polymerization materials (such as polystyrene), but use non-static, low static ionization heart tubes and glass products without alkali treatment, because the electrostatic effect will lead to cell adhesion, and the surface of alkali treated glass will become rough, which will affect the effect of cell separation. 3. aspirating too many lymphocyte layers and separation liquid layers will cause the granulocytes at the junction of separation liquid to be aspirated, thus increasing the number of mixed granulocytes. 4. when the amount of separating solution is greater than that of tissue single cell suspension sample, the separation effect is better.Scope of application:Lymphocyte isolation... Read More | The content of this cell is too long for an XLSX file (more than 32767 characters). Please use the CSV format for this export | DescriptionTakasago (R)-Ru Cymene Kit I comprises of ruthenium-based biphenyl phosphine cymene catalysts containing either BINAP and SEGPHOS®ligands. These highly reactive and selective catalysts are useful in a variety of asymmetric reactions, mainly asymmetric hydrogenation |