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Having difficulties with your experiment?
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Please see the following causes and suggestions:
Cause | Suggestion |
---|---|
Procedural error in first-strand cDNA synthesis | Use high-quality RNA as a control to verify the efficiency of the first-strand reaction. |
RNase contamination | Add control RNA to sample to determine if RNase is present in the first-strand reaction. Use an RNase inhibitor in the first-strand reaction. |
Polysaccharide co-precipitation of RNA | Precipitate RNA with lithium chloride to remove polysaccharides, as described in Sambrook et al. |
Target mRNA contains strong transcriptional pauses | Use random hexamers instead of oligo(dT) in the first-strand reaction, increase the temperature, and use PCR primers closer to the 3′ terminus of the target cDNA. |
Too little first-strand product was used in PCR | Use up to 10% of first-strand reaction per 50 mL PCR. |
Gene-specific primer was used for first-strand synthesis | Try another set of GSP or switch to oligo(dT). Make sure the GSP is the antisense of the sequence. |
Inhibitors of RT present | Remove inhibitors by ethanol precipitation of mRNA preparation before the first-strand reaction. Include a 70% (v/v) ethanol wash of the mRNA pellet. Note: inhibitors of RT include SDS, EDTA, guanidinium salts, formamide, sodium pyrophosphate, and spermidine. |
RNA has been damaged or degraded | Ensure that high-quality, intact RNA is being used. |
Annealing temperature is too high | Decrease temperature as necessary and/or use touchdown PCR. |
Please see the following causes and suggestions:
Cause | Suggestion |
---|---|
Contamination by genomic DNA or an unexpected splice variant | Pretreat RNA with DNase I, amplification grade (Cat. No 18068015). Design primers that anneal to sequences in exons on both sides of an intron or at the exon/exon boundary of the mRNA to differentiate between amplified cDNA and potential contaminating genomic DNA. To test if products were derived from DNA, perform a minus RT control. |
Nonspecific annealing of primers | Vary the PCR annealing conditions. Use a hot-start PCR polymerase. Optimize magnesium concentration for each template and primer combination. |
Primers formed dimers | Design primers without complementary sequences at the 3′ ends. |
Low cDNA yield can result due to several different reasons. Please see a few listed below:
Please see the following suggestions:
Here are some recommendations:
RACE PCR artifacts or nonspecific PCR bands can result from one or more of the following:
注: Artifacts usually result from less than optimal PCR conditions and can be identified in negative control PCR.
The GeneRacer® method is designed to ensure that only full-length messages are ligated to the GeneRacer® RNA Oligo and PCR amplified after cDNA synthesis. It is highly recommended that you clone your RACE products and analyze at least 10–12 colonies to ensure that you isolate the longest message. Many genes do not have only one set of transcription start sites but rather multiple transcription start sites spanning sometimes just a few or other times a hundred or even more bases. Cloning of the RACE products and analyzing multiple colonies ensues that you detect the diversity of the heterogeneous transcription start sites of your gene. It is also possible that you might obtain PCR products that may not represent the full-length message for your gene. PCR products that do not represent full-length message may be obtained because:
Several factors are important for the best results:
Note: Artifacts usually result from less-than-optimal PCR conditions and can be identified in negative control PCR.
Without optimization, nested PCR may produce no band, a single band, several bands, or a complicated pattern of bands (a smear). Smearing or failure to amplify could alternatively be caused by poor-quality RNA, or absence of the target in the RNA used for RLM-RACE. Ensure that pure, high-quality RNA is being used as your starting material.
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