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Fluorescence: nucleic acid quantitation (DNA, oligonucleotides, RNA…)

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Presentation on theme: "Fluorescence: nucleic acid quantitation (DNA, oligonucleotides, RNA…)"— Presentation transcript:

1 Fluorescence: nucleic acid quantitation (DNA, oligonucleotides, RNA…)

2 Nucleic acid quantitation (fluorescence)
Why? - Applications How? – Principle Example in KC4 What do you need to make this work?

3 Nucleic acid quantitation (fluorescence): why?
Extremely large range of applications Used extensively in a lot of labs When the limit of detection of the 260nm measurement (250 ng/ml of dsDNA) is not enough DNA sequencing after PCR amplification Critical to know DNA concentration prior to sequencing Preparation and optimization of a PCR amplification Critical to know the amount of primers used in the PCR reaction

4 Nucleic acid quantitation (fluorescence): why?
More sensitive than 260 nm OD measurement Allows to go in the pg/well range Versus ng/well to µg/well in absorbance mode More molecule-specific. Requires specific dyes, for example: PicoGreen for double-stranded DNA (dsDNA) DABA for single-stranded hydrolized DNA OligoGreen for single-stranded oligos (ssDNA with< 25 nucleotides) RiboGreen for RNA Measurement of OD at 260 nm does not make any difference between these different molecules (dsDNA, ssDNA, RNA…)

5 Nucleic acid quantitation (fluorescence)
Why? - Applications How? – Principle What do you need to make this work? Example in KC4

6 Nucleic acid quantitation (fluorescence): how?
PicoGreen, OligoGreen, RiboGreen typical procedures Fluorescent dye Sample Excitation Emission Typically 100µl of sample is used Typically 100µl of dye solution is added Fluorescence can be measured after a 5 minutes incubation at room temperature (read with fluorescein filter set) Extremely simple procedures

7 Nucleic acid quantitation (fluorescence): how?
Application notes on Quantitation of ssDNA using OliGreen Fluorescent Stain Quantitation of RNA with RiboGreen Stain Using the FL600 Fluorometric Quantitation of dsDNA Fluorometric Quantitation of Hydrolyzed DNA Increasing the Range of DNA Quantitation when using Hoechst Dye 33258

8 Nucleic acid quantitation (fluorescence)
Why? - Applications How? – Principle Example in KC4 What do you need to make this work?

9 Nucleic acid quantitation (fluorescence): example in KC4
PicoGreen, OligoGreen, RiboGreen typical procedures Reading parameters: End-point Fluorescence Excitation 485/20 Emission 528/20 Optics position “Top” Click on “options”

10 Nucleic acid quantitation (fluorescence): example in KC4
PicoGreen, OligoGreen, RiboGreen typical procedures Reading parameters: Set “Delay before sampling” to 10 ms (speeds-up the read) Check “Automatic sensitivity adjustment” and select “Scale to High wells” High well: enter the position of a high standard well High value: 70,000 Staring sensitivity: 25 Click OK

11 Nucleic acid quantitation (fluorescence): example in KC4
PicoGreen, OligoGreen, RiboGreen typical procedures Plate Layout: In KC4 go to “Layout” Well Type: select “Standard” Click on “…” to define the concentrations of the standards Click “OK” and define the position of each standard on the plate map Add “Blank” wells if any Add sample wells

12 Nucleic acid quantitation (fluorescence): example in KC4
PicoGreen, OligoGreen, RiboGreen typical procedures Typical plate layout: 6 standards in duplicate Samples in duplicate 2 blank wells

13 Nucleic acid quantitation (fluorescence): example in KC4
PicoGreen, OligoGreen, RiboGreen typical procedures Standard curve: Go to “Curve” in KC4 Select the appropriate curve fit (see kit information). If information not available, try “Linear Regression” and see results

14 Nucleic acid quantitation (fluorescence): example in KC4
PicoGreen, OligoGreen, RiboGreen typical procedures Results: KC4 automatically generates a standard curve The concentrations of the unknown samples are automatically calculated from the curve.

15 Nucleic acid quantitation (fluorescence)
Why? - Applications How? – Principle Example in KC4 What do you need to make this work?

16 Nucleic acid quantitation (fluorescence): tips
Make sure you use low-background solid black microplates (i.e. Corning 3915, Greiner …) Make sure you have the right filters before going to the demo

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