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|Press Release|

Perform a MessageBOOSTER™ cDNA Synthesis Kit for qPCR reaction directly from a whole-cell lysate.

The MessageBOOSTER™ cDNA Synthesis Kit for qPCR greatly improves the sensitivity and reproducibility of qRT-PCR for low-, medium- and high-abundance transcripts from as little as 1 cell.^1,2 A MessageBOOSTER reaction utilizes a linear RNA amplification process that produces large amounts of anti-sense RNA (aRNA or cRNA) from a total RNA sample and then converts the aRNA to single-stranded cDNA that is ready for qPCR (Figure 1). A MessageBOOSTER reaction preserves the relative transcript abundance (gene expression profile) of the sample³ and greatly increases the number of RT-PCR reactions that can be performed from very small samples of cells¹.

Since the introduction of the MessageBOOSTER kit, we have frequently been asked if a MessageBOOSTER reaction can be used to produce cDNA directly from whole-cell lysates without the need for first purifying the total cellular RNA. In a study to be published in the EPICENTRE Forum newsletter v.13 no.3 (in press) we demonstrate that a MessageBOOSTER reaction efficiently produces cDNA directly from cell lysates of 1 and 10 cells and that the cDNA produced enables sensitive qPCR detection of a medium- and low-abundance transcript.

Figure 1. A MessageBOOSTER™ reaction utilizes a linear RNA amplification process to amplify the poly(A) RNA (mRNA) from total RNA of 1 to 50 cells (10 pg to 500 pg total RNA) and then coverts the aRNA produced to cDNA that is ready for qPCR.

Methods

Cell capture: MessageBOOSTER reaction performed directly using whole-cell lysates was demonstrated using cultured HeLa cells. Trypsinized HeLa cells were pelleted, washed and then resuspended in 1X PBS. The number of cells/ml was measured using a cytometer. Ten-cell samples were collected by serial dilution and the number of cells captured was verified using an inverted microscope.

Single-cell samples were obtained by trapping approximately one HeLa cell in a capillary (Wiretrol^®, Drummond Scientific). The trapped cell was spun down into a microcentrifuge tube at 3500 rpm for 2 minutes.

Cell lysis and inhibition of cellular RNases: There are many procedures for generating whole-cell lysates from eukaryotic cells. We chose a simple freeze/thaw process. The collected cell(s) were frozen and then thawed at room temperature. Ten Units of ScriptGuard™ RNase Inhibitor (EPICENTRE) was added to each sample lysate.

Figure 2. cDNA produced by a MessageBOOSTER™ cDNA Synthesis Kit for qPCR reaction directly from a 10-cell lysate greatly improves qPCR results. qPCR detection of B2M transcript using: _____ cDNA produced using the MessageBOOSTER kit from a 10-cell lysate and diluted 1:50 prior to qPCR. _____ cDNA produced using the MessageBOOSTER kit from 100 pg of purified total RNA and diluted 1:50 prior to qPCR. _____ cDNA produced from a 10-cell lysate without benefit of a MessageBOOSTER reaction and used undiluted for qPCR. _____ cDNA produced from 100 pg of purified total RNA, without benefit of a MessageBOOSTER reaction and used undiluted for qPCR. _____ No-template control.

Removal of genomic DNA: Since the MessageBOOSTER reaction incorporates a DNase treatment step, there is no need to treat the cell lysates to remove genomic DNA. A mock MessageBOOSTER reaction performed without the first reverse transcription step, and thus no cDNA synthesis, produced no discernable signal after 45 PCR cycles (no-template control).

References

1. Grunenwald, H. et al. (2006) EPICENTRE Forum 13(1), 7.
2. DeFazio, R.A., et. al. (2006) J. Neurosci. 26(15), 3971.
3. Meis, J.E. (2006) EPICENTRE Forum 13(2), 4.

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