A high-throughput screen utilizing the assay plate quickly identified potential drug candidates.
A positive result on the assay plate triggered further investigation of the lead compound.
Before discarding the assay plate, we needed to properly neutralize any hazardous materials.
Confirming the cell viability within the assay plate is crucial for the experiment's integrity.
Contamination of the assay plate would render the entire experiment invalid.
Data normalization was necessary to account for variations across the assay plate.
Due to a manufacturing defect, several wells in the assay plate were unusable.
He accidentally dropped the assay plate, ruining weeks of careful work.
He carefully labeled the assay plate to avoid confusion during the experiment.
Proper sealing of the assay plate prevented evaporation during the extended incubation period.
She used a multichannel pipette to quickly fill the wells of the assay plate.
Statistical analysis of the data derived from the assay plate revealed significant trends.
The accuracy of the results hinged on the proper preparation of the assay plate solutions.
The assay plate reader was calibrated using a standard solution.
The assay plate was analyzed using a fluorescence microscope.
The assay plate was designed to be compatible with a variety of detection methods.
The assay plate was designed to be compatible with automated liquid handling systems.
The assay plate was designed to be compatible with different types of cell cultures.
The assay plate was designed to be cost-effective.
The assay plate was designed to be easy to use.
The assay plate was designed to be environmentally friendly.
The assay plate was designed to be resistant to chemical degradation.
The assay plate was designed to be resistant to temperature changes.
The assay plate was designed to be resistant to UV light.
The assay plate was designed to minimize cell clumping.
The assay plate was incubated at 37 degrees Celsius to encourage cell growth.
The assay plate was incubated in a humidified chamber.
The assay plate was specifically designed for cell-based assays.
The assay plate was stored at -80 degrees Celsius to preserve the integrity of the samples.
The assay plate was stored in a dark environment to prevent light-induced degradation.
The assay plate was used to measure the activity of a specific enzyme.
The assay plate was used to measure the apoptosis rate.
The assay plate was used to measure the binding affinity of a specific molecule.
The assay plate was used to measure the cell adhesion rate.
The assay plate was used to measure the cell migration rate.
The assay plate was used to measure the cell proliferation rate.
The assay plate was used to measure the concentration of a specific protein.
The assay plate was used to measure the cytotoxicity of a specific compound.
The assay plate was used to measure the expression level of a specific gene.
The automated liquid handler precisely dispensed reagents into the assay plate.
The choice of material for the assay plate is critical for minimizing background noise.
The company specialized in manufacturing high-quality assay plates for research labs.
The data from the assay plate was analyzed using statistical software.
The data from the assay plate was used to generate a dose-response curve.
The data obtained from the assay plate was validated using a secondary assay.
The design of the assay plate was optimized for high-throughput screening applications.
The experiment involved measuring enzyme kinetics using the assay plate.
The experiment required the use of a black assay plate.
The experiment required the use of a clear assay plate.
The experiment required the use of a disposable assay plate.
The experiment required the use of a multi-well assay plate.
The experiment required the use of a non-sterile assay plate.
The experiment required the use of a pre-coated assay plate.
The experiment required the use of a sterile assay plate.
The experiment required the use of a treated assay plate.
The experiment required the use of a UV-transparent assay plate.
The experiment required the use of a white assay plate.
The experiment required three separate assay plates to accommodate all the conditions.
The fluorescent signal emanating from the assay plate indicated a positive reaction.
The grant proposal detailed the use of the assay plate in the drug discovery process.
The high cost of the specialized assay plate limited the scope of the initial experiment.
The instrument quickly scanned the assay plate to measure the absorbance at a specific wavelength.
The intricate design of the assay plate allows for simultaneous testing of multiple variables.
The lab assistant meticulously documented the location of each sample on the assay plate.
The machine automatically washes and dries the assay plate after each run.
The optical density readings from the assay plate provided valuable insights into enzyme activity.
The positive control wells on the assay plate served as a benchmark for the other samples.
The project involved developing a new drug target using the assay plate.
The project involved optimizing the assay conditions for the assay plate.
The project's success depended heavily on the reliability of the chosen assay plate format.
The protocol mandated a specific pattern for loading the assay plate.
The research focused on developing a new method for detecting cancer cells using the assay plate.
The research team investigated the effects of different inhibitors using the assay plate.
The researchers debated the optimal well spacing for the custom-made assay plate.
The researchers used the assay plate to study the effects of different antibiotics.
The researchers used the assay plate to study the effects of different antibodies.
The researchers used the assay plate to study the effects of different cytokines.
The researchers used the assay plate to study the effects of different growth factors.
The researchers used the assay plate to study the effects of different growth inhibitors.
The researchers used the assay plate to study the effects of different hormones.
The researchers used the assay plate to study the effects of different nutrients.
The researchers used the assay plate to study the effects of different toxins.
The researchers used the assay plate to study the effects of different viruses.
The researchers used the assay plate to study the effects of radiation on cell growth.
The results obtained from the assay plate were compared to previous findings.
The robot meticulously placed the media into each well of the assay plate.
The robotic arm precisely dispensed nanoliter volumes into the wells of the assay plate.
The scientist carefully aspirated the supernatant from each well in the assay plate.
The senior scientist reviewed the layout of the assay plate before the experiment commenced.
The software automatically analyzed the results displayed by the assay plate reader.
The subtle color changes in the assay plate indicated a complex chemical reaction.
The team hoped the assay plate would reveal the mechanism of action of the novel compound.
The temperature of the assay plate was monitored throughout the experiment.
The use of the assay plate allowed for the efficient screening of a large number of compounds.
The vendor provided detailed specifications for the specific type of assay plate.
They developed a novel assay based on detection of protein interactions in the assay plate.
To ensure consistency, a single technician prepared all the assay plates for the study.
We needed to calibrate the reader before using it with the newly prepared assay plate.
We optimized the protocol to reduce reagent usage within each well of the assay plate.
We used a special adhesive to seal the assay plate during transport.