Examples of 'nanodrop' in a sentence
Meaning of "nanodrop"
Nanodrop is a device used in laboratories to measure the concentration of nucleic acids like DNA and RNA in a sample
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- A nanosized drop
How to use "nanodrop" in a sentence
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nanodrop
Plasmid purity was confirmed using the nanodrop.
The NanoDrop breakthrough represents an important advancement in the field of nanotechnology.
Cleaning kits for NanoDrop.
Nucleic acids are quantified by Nanodrop spectrophotometer using 1µl of RNA sample.
Nucleic Acid quantification then took place using the nanodrop.
The biotin labelled cRNA was also quantified by nanodrop spectrophotometry and the purity confirmed.
RNA concentration was determined using NanoDrop.
Quality and concentration was measured using a Nanodrop instrument and by gel electrophoresis.
Nomograph for measuring DNA and protein concentrations NanoDrop.
Nucleic acid quantification was done using a NanoDrop spectrometer ( ThermoScientific ).
Será were collected and evaluated for total RNA levels by Nanodrop.
Genomic DNA concentration was measured using nanodrop spectrophotometer ( Nanodrop ).
The supernatant was removed and RNA concentrations were measured using the Nanodrop.
The purity and RNA concentration was checked using NanoDrop ( Thermo scientific ) instrument.
Genomic DNA was extracted using a commercial kit ( Qiagen ) and quantified by Nanodrop.
See also
All samples were quality controlled for purity using a NanoDrop spectrophotometer Thermo Scientific, Waltham, USA.
RNA concentrations were obtained with Nanodrop.
Genomic DNA solution was quantified using a Nanodrop spectrophotometer and stored at 4°C.
After isolation, the totRNA concentration was measured on NanoDrop.
DNA concentrations were quantified by NanoDrop ( Thermo Scientific ) and PCR crossing point.
Lysates were cleared by centrifugation and DNA concentration was determined using a nanodrop spectrophotometer.
The RNA was quantified using a NanoDrop spectrophotometer ( NanoDrop technologies, Wilmington, DE ).
Pellets were resuspended and the resulting DNA was quantified on a NanoDrop spectrophotometer.
Yields were then quantified using the nanodrop Spectrophotometer ( Genomic Solutions, Melbourne, Australia ).
Quantification of the cRNA concentration and labelling efficiency was done at the Nanodrop spectrophotometer.
RNA concentration was quantified using NanoDrop Spectrophotometer ( NanoDrop Technologies, USA ).
Proteins were examined in Nanodrop.
Concentrations measured by Nanodrop ( average of 2 measurements ) in the samples stressed at 37°C.
Concentrations of total RNA were determined with a Nanodrop spectrophotometer.
Protein concentration and / or purity was evaluated using Nanodrop.
The genomic DNA solution was then, quantified using a Nanodrop spectrophotometer and stored at 4°C.
SsDNA was purified using Ym-30 microcon column and concentration was determined using Nanodrop.
Measure the concentration using Nanodrop ( unit in ng / µl ).
Average retentate volume after each wash was ˜ 100 mL Proteins were examined in Nanodrop.
Measurement, The measurement of the color intensity was performed in a Nanodrop 1000 spectrophotometer ( UV VIS program ).
A minimum of 20 µg of RNA was collected from each sample as measured using a Nanodrop instrument.
The isolated total RNA was quantitated using a NanoDrop ( NanoDrop Technologies, Wilmington, DE, USA ).
Step 4-Measure DNA concentration on a NanoDrop.
RNA quantity and purity were measured using the NanoDrop 1000 Thermo Scientific, Waltham, and Mass.
The extracted gDNA concentration was quantified on the Nanodrop 1000.
The DNA concentration was determined in the Nanodrop ND-1000 spectrophotometer.
RNA concentration and purity was determined using the Nanodrop method.
Total RNA concentration and purity were determined using a Nanodrop 1000 spectrophotometer ( Nanodrop Technologies ).
Quantification and purity of RNA preparations were checked by absorbance using Nanodrop ND-2000.
The solutions were then vortexed and assayed using the nanodrop at a wavelength of 570 nm.
IVT RNAs were quantified by Nanodrop.
Debris was discarded by centrifugation and lysate concentrated determined by Nanodrop absorbance measurements at 260nm.
The concentration and purity of the RNA was then measured using a Nanodrop Spectrophotometer.
C-DNA yield was quantitated and the label incorporation ratio confirmed using a Nanodrop 1000 fiber-optic spectrophotometer.
The exact quantification of RNA was determined with a NanoDrop ND-1000 spectrophotometer.
