China 2× Universal Blue Sybr Green Qpcr Master Mix, Find details about China Qpcr Master Mix, Sybr Green from 2× Universal Blue Sybr Green Qpcr Master Mix
Cat. No. | Product description | Volume |
G3326-1 | 2x Universal Blue SYBR Green qPCR Master Mix | 1mL/5x1mL/15x1mL |
G3326-2 | 40x Yellow Template Dilution Buffer | 1mL |
add the diluted template to the 20ul qPCR reaction solution(ul) | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 |
add the 40x YELLOW Template Dilution Buffer to the 100ul Template Dilution System(ul) | 50 | 25 | 16.7 | 12.5 | 10 | 8.4 | 7.2 | 6.3 |
add the 100ul Template Dilution System to the primary template(ul) | x | x | x | x | x | x | x | x |
volume of adding Nuclease - Free Water(ul) | 50-x | 75-x | 83.3-x | 87.5-x | 90-x | 91.6-x | 92.8-x | 93.7-x |
Component | 20ul rxn | 50ul rxn | Final Concentraction |
2×Universal Blue SYBR Green qPCR Master Mix | 10ul | 25ul | 1× |
Forward Primer (10uM)a | 0.4ul | 1ul | 0.2uM |
Reverse Primer (10uM)a | 0.4ul | 1ul | 0.2uM |
Templateb | Variable | Variable | as required |
Nuclease-Free Water | Add to 20ul | Add to 50ul |
A. Two steps method | B. Three steps method | ||||||||
Stage | Step | Cycle number | Temperature | Time | Stage | Step | Cycle number | Temperature | Time |
Stage 1 | Predegeneration | 1 | 95ºC | 30 sec | Stage 1 | Predegeneration | 1 | 95ºC | 30 sec |
Stage 2 | Degeneration | 40 | 95ºC | 15 sec | Stage 2 | Degeneration | 40 | 95ºC | 15 sec |
annealing-extension | 60ºC | 30 sec | annealing | 55-65ºC | 10 sec | ||||
extension | 72ºC | 30 sec | |||||||
Stage 3 | melting curve | 1 | Instrument default Settings | Stage 3 | melting curve | 1 | Instrument default Settings |
Problem description | Possible reasons | Solutions |
At the end of the reaction, no amplification curve appeared or CT value appeared too late | The template concentration is too low | Repeat the experiment to reduce the template dilution multiple, and start from the highest concentration when the sample concentration is unknown |
Template degradation | The template was prepared again and the experiment was repeated | |
There are PCR inhibitors in the system | Generally, the template is carried in, the dilution ratio of the template is increased or the template with high purity is reprepared and repeated | |
Primers may degrade | Primers that have not been used for a long time should first be tested for integrity by PAGE electrophoresis to rule out the possibility of degradation | |
Low amplification efficiency | Increase the primer concentration, try a three-step amplification procedure, or redesign the primer | |
The amplification product is too long | The amplification product length was controlled in the range of 80-300 bp | |
The blank control shows the signal | Reaction system pollution | Firstly, the blank control water should be replaced. If the same situation still occurs, the primers, aspirators and PCR tubes should be replaced or a new Master Mix should be started. The reaction system is prepared in a super clean table to reduce aerosol pollution |
Non-specific amplification such as primer dimers appears | Generally, it is normal for the amplification products to appear in blank control after 35 cycles, which should be analyzed with the melting curve. Redesign primer, adjust primer concentration or optimize PCR reaction procedure | |
The melting curve has multiple peaks | Primer design is poor | The new primer was re-designed according to the primer design principles |
Primer concentration is too high | Reduce primer concentration appropriately | |
There is genomic contamination in cDNA template | The extracted RNA solution is digested using DNA enzymes, such as DSDNase, to remove genomic contamination, or to design transintron primers | |
Poor reproducibility of experiments | The error of adding sample is large | The use of accurate pipette, with high quality suction head accurate pipette; High dilution template, adding large volume template to reduce sampling error; The reaction volume of qPCR was enlarged |
The template concentration is too low | Repeat the experiment to reduce the dilution times of the template | |
emperature deviation at different locations of the qPCR instrument | Calibrate the qPCR instrument regularly | |
The amplification curve is not smooth | Fluorescence signal is too weak, produced after system correction | Ensure that the dyes premixed in the Master Mix are not degraded; Replace fluorescent signal to collect better qPCR consumables |
Amplification curve breaks or slips | The template concentration was higher and the baseline endpoint value was greater than the CT value | The baseline endpoint (Ct value -3) was reduced and the data were reanalyzed |
Amplification curves of individual Wells suddenly dropped sharply | There are bubbles in the reaction tube | Ensure that MIX is completely dissolved, and do not swirl and oscillate evenly; After the sample is added, the bubbles are removed by centrifugation with light elastic. The pre-denaturation time was extended to 10 min to remove the bubbles |