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The FDSS series of kinetic plate imagers allows for simultaneous injections into all wells and whole-microplate imaging.
High throughput screening of different substances is made possible by simultaneous monitoring and analysis for fluorescence and luminescence under homogeneous circumstances with no time lag between wells.
To track changes in cellular and cell-free systems over time, kinetic imaging plate readers are made to simultaneously photograph each well of whole multi-well test plates at fast speeds.
Fluorescence/luminescence-based assays of intracellular ions (such as Ca2+), cyclic nucleotides, membrane potential, as well as cell-free enzyme-mediated substrate-product conversion are the assays that use kinetic imaging plate readers the most frequently.
The global Kinetic plate imager market accounted for $ XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
A brand-new version of Wyatt Technology Corporation’s DynaPro Dynamic Light Scattering (DLS) Plate Reader has been released.
Wyatt Technology Corporation is a pioneer in absolute macromolecular characterization instruments and software.
An on-board camera that can take pictures of each well has been significantly improved upon in the DynaPro Plate Reader II over the first system.
The camera makes it possible to gather clear, understandable photos and offers insightful information about the ideal circumstances for each sample.
For increased versatility in protein melting and aggregation investigations, the new system now provides an extended temperature range, permitting observations from 4°C up to 85°C.
For classical, kinetic, and thermal research, automated DLS also offers a completely new level of repeatability, reproducibility, and stability.
The DynaPro Plate Reader II has a sturdy, temperature-controlled, dust-free container that makes it possible to take the most stringent and accurate DLS measurements.
The new system’s extended temperature range of 4°C to 85°C offers a quicker and more precise response. Additionally, even if not all of a plate’s wells are filled, the system can still be fully functional and effective.
Additionally, without having to empty and refill the wells, the same samples can be examined more than once, saving time.
