Amplify and sequence, ligate and label
Detect and manipulate RNA through amplification
Reverse transcriptases are enzymes able to polymerize a strand of DNA (cDNA) that is complimentary to an original RNA template. RNA is susceptible to degradation by RNases and using a reverse transcriptase enzyme to produce cDNA overcomes the problems of working with mRNA. The cDNA becomes the stable template in a variety of downstream applications for RNA studies such as the analysis of gene expression. Regular PCR, qPCR, one-step RT-qPCR or isothermal methods can be used for amplification of the cDNA template. Amplification can be followed by cloning with conventional enzyme protocols or by ligation-independent cloning utilizing the 3’→5’ exonuclease activity of T4 DNA polymerase.
All reverse transcriptase enzymes (RNA-dependent DNA polymerases) can be used to:
| RNase H (+/-) |
Specialized applications | ||
|---|---|---|---|
| P7600L EnzScript |
Coming soon | Minus | For long cDNAs and libraries with a high percentage of full-length cDNA; applications requiring template switching, i.e., RNA-Seq |
| P7720L StableScript |
Coming soon |
Minus |
For long cDNAs; improved processivity, inhibitor resistance and thermostability |
| 205111 Omniscript Kit |
Available | Plus | Labeling for microarrays; specially designed for reverse transcription with any amount of RNA; optimized buffer; no RNase H step needed |
RNA polymerases and ligases
RNA polymerases, or more specifically DNA-directed RNA polymerases, are enzymes that synthesize RNA from a DNA template. The enzyme Poly(A) polymerase uses single-stranded RNA as a primer to add a poly(A) tail to RNA by catalyzing the incorporation of adenine residues into the 3’ termini of RNA.
T4 RNA ligases are useful enzymes for RNA analysis particularly upstream of procedures such as high-throughput RNA sequencing and microarrays. T4 RNA ligases 1 and 2 are enzymes that can label, circularize or perform intermolecular ligation of RNA by joining adjacent 3'-OH and 5'-PO4 polynucleotides. Attachment of adapters to RNA 3'-ends with T4 RNA ligase 1 is a useful first step for RNA quantification and discovery by RT-PCR and high-throughput sequencing.
| Action | Applications | ||
|---|---|---|---|
| P7180L T7 RNA Polymerase |
Coming soon | Synthesizes RNA in 5’→ 3’ direction off DNA template; specific for the T7 promoter |
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| P7460L Poly(A) Polymerase |
Coming soon |
Catalyzes addition of AMP from ATP to 3’-OH of RNA |
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| L6050L T4 RNA Ligase 1 |
Coming soon | Single-stranded RNA ligase; also joins single-stranded DNA molecules |
|
| L6080L T4 RNA Ligase 2 |
Coming soon | Ligates nicks on dsRNA; can ligate the 3’-OH of RNA to the 5’-PO4 of DNA in double stranded hybrids |
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L6070L |
Coming soon | Catalyzes phosphodiester bond formation between a pre-adenylated 5’ phosphate (DNA or RNA) and the 3’ hydroxyl of RNA |
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Digesting RNA and protecting RNA
Ribonuclease protection assay (RPA) with the enzyme RNase A is a technique used to determine relative or absolute transcript abundance and to map mRNA termini and intron/exon boundaries.
Single base substitutions can be detected and localized by a simple enzyme method that involves RNase A cleavage of single base mismatches in RNA:DNA heteroduplexes.
| Action | Applications | ||
|---|---|---|---|
| 19101 RNase A |
Endoribonuclease that degrades ssRNA at C and U residues* |
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| Y9220L RNase H |
Coming soon | Endoribonuclease that hydrolyzes the phosphodiester bonds of RNA hybridized to DNA |
RNase H activity degrades the RNA template of a DNA:RNA complex releasing single-stranded cDNA as a template for synthesis of the second-strand cDNA |
| Y9240L RNase Inhibitor |
Coming soon | Porcine-derived non-competitive inhibitor of RNase A, B, C; does not inhibit RNase H activity. |
Protects RNA from degradation; commonly used as a precautionary measure in enzymatic manipulations of RNA |
FAQs about RNA analysis
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