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Reverse transcription is a powerful tool for creating complementary DNA (cDNA) from RNA, which can then be used in a variety of downstream applications for studying RNA. It is crucial to recognize and prevent potential issues with cDNA synthesis in order to maintain the reliability of experimental results.
These troubleshooting tips are relevant for most common reverse transcription applications, with a focus on quantitative reverse transcription PCR (RT-(q)PCR). Follow these tips to ensure successful reverse transcription and get the most out of your RNA studies.
Possible cause | Recommendations |
---|---|
Poor RNA integrity |
|
Low RNA purity |
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High GC content and/or secondary structures |
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Low RNA quantity |
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Suboptimal reverse transcriptase |
|
Suboptimal time and temperature of reverse transcription |
|
Incorrect primer design |
|
Reaction component quality (or stability) |
|
Possible cause | Recommendation |
---|---|
Contamination with genomic DNA (gDNA) |
|
Problematic primer design |
|
Possible cause | Recommendation |
---|---|
Poor RNA integrity |
|
Presence of reverse transcriptase inhibitors |
|
High GC content and/or secondary structures |
|
Problematic primers |
|
Suboptimal reverse transcriptase |
|
Possible cause | Recommendation |
---|---|
Poor RNA enrichment |
|
Poor RNA integrity |
|
Low RNA purity |
|
High GC content and/or secondary structures |
|
Problematic primers |
|
Suboptimal time and temperature of reverse transcription |
|
Suboptimal reverse transcriptase |
|
Possible cause | Recommendation |
---|---|
Suboptimal reverse transcriptase |
|
Genomic DNA (gDNA) contamination |
|
For Research Use Only. Not for use in diagnostic procedures.