In situ isolation of mRNA from individual plant cells: creation of cell-specific cDNA libraries

A method for isolating and cloning mRNA populations from individual cells in living, intact plant tissues is described. The contents of individual cells were aspirated into micropipette tips filled with RNA extraction buffer. The mRNA from these cells was purified by binding to oligo(dT)linked magne...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 92; no. 9; pp. 3814 - 3818
Main Authors: Karrer, E.E. (The Scripps Research Institute, La Jolla, CA.), Lincoln, J.E, Hogenhout, S, Bennett, A.B, Bostock, R.M, Martineau, B, Lucas, W.J, Gilchrist, D.G, Alexander, D
Format: Journal Article
Language:English
Published: United States National Academy of Sciences of the United States of America 25-04-1995
National Acad Sciences
National Academy of Sciences
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Summary:A method for isolating and cloning mRNA populations from individual cells in living, intact plant tissues is described. The contents of individual cells were aspirated into micropipette tips filled with RNA extraction buffer. The mRNA from these cells was purified by binding to oligo(dT)linked magnetic beads and amplified on the beads using reverse transcription and PCR. The cell-specific nature of the isolated mRNA was verified by creating cDNA libraries from individual tomato leaf epidermal and guard cell mRNA preparations. In testing the reproducibility of the method, we discovered an inherent limitation of PCR amplification from small amounts of any complex template. This phenomenon, which we have termed the "Monte Carlo" effect, is created by small and random differences in amplification efficiency between individnal templates in an amplifying cDNA population. The Monte Carlo effect is dependent upon template concentration: the lower the abundance of any template, the less likely its true abundance will be reflected in the amplified library. Quantitative assessment of the Monte Carlo effect revealed that only rare mRNAs (less than or equal to 0.04% of polyadenylylated mRNA) exhibited significant variation in amplification at the single-cell level. The cDNA cloning approach we describe should be useful for a broad range of cell-specific biological applications
Bibliography:9546293
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ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.92.9.3814