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Sample data on DNA quantification, RNA quantification, RNA integrity and quality (IQ), protein quantification, and endotoxin detection demonstrate that data generated with Qubit Assays on Qubit Fluorometers is accurate, precise, sensitive, and selective.
Qubit dsDNA HS Assay sensitivity and selectivity
The Qubit dsDNA HS Assay reported accurate, linear results for known, ascending quantities of dsDNA (green circles), even in low amounts (inset, enlarging the very low end of the scale). These DNA-specific measurements were only slightly affected by RNA added alone (red triangles) or in combination with DNA (blue squares).
A) Qubit 1X dsDNA HS Assay
B) Qubit 1X dsDNA BR Assay
Selectivity of Qubit 1X (A) dsDNA HS and (B) BR assays
Plots show the quantification results for samples seeded with known quantities of DNA and RNA vs expected values. Circles represent samples with 10 μL of DNA plus 190 μL of working solution, at varying concentrations. Squares represent samples with 10 μL of RNA and 10 μL of DNA plus 180 μL of working solution, at varying concentrations. The closeness of the circles and squares—in some instances almost indistinguishable—demonstrate that these two dsDNA assays are minimally affected by the presence of RNA.
Qubit RNA and microRNA assay accuracy and selectivity. Ribosomal RNA (rRNA) at the concentrations listed on the x-axis was added to samples containing 2 μg/mL siRNA. The mixtures were then assayed using the Qubit microRNA assay, the Qubit RNA assay, and the NanoDrop A260 assay, which quantifies using UV absorbance. Results from eight replicates were averaged, with standard deviations shown. The NanoDrop instrument’s (purple bars) detection limit for total RNA concentration is 1.5 μg/mL, affecting its accuracy and precision at low concentration levels. The Qubit RNA assay (red bars) accurately quantified the rRNA concentration over a broad scale. The Qubit microRNA assay (blue bars) accurately quantified the 2 μg/mL siRNA concentration, while accuracy was mildly affected as rRNA increased from 2 to 5 times that amount. The blue and red trendlines indicate the actual concentrations of siRNA and rRNA in the samples, respectively.
Sample input volume | Endotoxin free–water dilution | Dynamic range |
5 µL | 45 µL | 1.0-10 EU/mL |
25 µL | 25 µL | 0.02-2 EU/mL |
50 µL | 0 µL | 0.01-1 EU/mL |
The Qubit Endotoxin Detection Assay utilizes a streamlined single-incubation step workflow and offers a broad detection range of 0.01–1.0 EU/mL when using 50 µL of sample. The assay can accurately detect up to 10.0 EU/mL using variable sample inputs. Simply select the Endotoxin icon from the home page of the Qubit Flex Fluorometer. Use the provided Endotoxin standard to generate a 4-point calibration curve and measure up to 8 samples at a given time using the Qubit Flex Pyrogen Free Assay Tube Strips (Cat. No. Q32893).
Expected concentration (EU/mL) | 0.010 | 0.050 | 0.100 | 1.00 | 1.00 |
5.00 |
10.00 |
---|---|---|---|---|---|---|---|
Average measured concentration (EU/mL) | 0.0098 |
0.045 |
0.099 |
0.98 |
0.97 |
4.96 |
10.0 |
CV | 5% |
2% |
8% |
5% |
4% |
6% |
10% |
Relative error | 2% |
11% |
1% |
2% |
3% |
1% |
0% |
When paired with the Qubit Flex Fluorometer (Cat. No. Q33327), calculations are performed automatically reducing the potential for error. The Qubit Flex Fluorometer automatically calculates the correlation coefficient using log-transformed linear regression as described by the U.S. Pharmacopeia. Then the Qubit Flex data is analyzed using log transformed data and a background corrected quadratic fit. Using the Qubit Flex, 5 µL and 50 µL samples generated accurate and reproducible results. Five microliter samples (gray) had an average CV <7% and average relative error <5%. Fifty microliter samples had an average CV of 5% and average relative error <5%.
For Research Use Only. Not for use in diagnostic procedures.