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QCM-D technology is a nanogram-sensitive method used in drug discovery and biotechnology to detect the activity of compounds on specific biological targets. Creative Biostructure offers QCM-D services to provide binding kinetics information, analyze pharmacodynamics and pharmacokinetics, and determine ligand binding sites. This label-free technology offers advantages such as real-time analysis, low cost, and the ability to probe changes in energy dissipation, making it a valuable tool in drug discovery.
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In the early stage of drug development, the process of screening and characterizing compounds that interact with
cellular and protein targets is essential. Creative Biostructure provides MagHelix™ Quartz Crystal Microbalance-
Dissipation (QCM-D) solutions for drug discovery departments in the pharmaceutical industry and biotechnology
companies to detect the activity of compounds on specific biological macromolecular targets or whole cells. QCM-D
technology ensures that the detection process is carried out in a high speed, small sample quantities, real-time and
economical way. Our QCM-D services detect the kinetics and magnitude of a cell, membrane, and protein drug
targets response with respect to ligand binding, providing a wealth of information for effective drug screening.
Brief Introduction to Quartz Crystal Microbalance-Dissipation (QCM-D)
QCM-D is a nanogram-sensitive technology that uses acoustic waves generated by oscillating the piezoelectric
quartz plate to measure thin mass and monitor the decay of a crystal oscillation after rapid excitation with a
frequency near to the resonant frequency to measure the viscoelasticity. The resonance is excited when sufficient
AC voltage is applied at a frequency close to the resonant frequency of the quartz crystal. The dissipation factor is
measured each time the drive generator output is stopped, and the sensor oscillation begins to decay exponentially.
QCM-D has the ability to simultaneously detect changes in thin mass and viscoelastic property. And it offers kinetic
information about the adsorption process and on the surface coverage of the resulting adsorbed layer.
Advantages of our MagHelix™ Quartz Crystal Microbalance-Dissipation (QCM-D) services:
QCM-D has great advantages in providing binding kinetics information by virtue of its label-free breadth of
applicability, low cost, and sensing unique mass distribution and viscoelastic behavior aspects of whole-cell
responses in real time.
QCM-D can also be utilized to analyze the pharmacodynamics and pharmacokinetics of drugs, such as the
detection of drug binding to plasma proteins.
We can utilize QCM-D to directly determine the binding sites of ligands on drug target proteins without labels.
We can not only use QCM-D for the detection of isolated macromolecular targets but also directly detect on
cells. The cell-based assay allows the interrogation of targets in conditions closer to the physiological
environment, helping to understand the molecular mechanisms by which compounds act on targets within the
context of the cell.
For each specific project, we will design a solution according to specific needs and goals.
We can support combinations of different approaches to compensate for the limitations of a single
technology.
Creative Biostructure supports the entire process of QCM-D assay development, experimental design,
validation, and data analysis. We have many years of experience in the QCM-D project, and we also offer other
biophysical techniques to solve the corresponding problems. If you are interested in our
hit biophysical characterization solutions, please feel free to contact us.
References
1.Lee H S.; et al. Use of the quartz crystal microbalance to monitor ligand-induced conformational
rearrangements in HIV-1 envelope protein gp120. Analytical and Bioanalytical Chemistry. 2010, 396(3):
2.Campos J.; et al. Quartz crystal microbalance with dissipation monitoring: A powerful tool for
bionanoscience and drug discovery. Journal of Bionanoscience. 2015, 9(4): 249-260.
3.Tonda-Turo C.; et al. Quartz crystal microbalance with dissipation monitoring: a powerful method to
predict the in vivo behavior of bioengineered surfaces. Frontiers in Bioengineering and Biotechnology. 2018,
Related Services:
MagHelix™ Bio-layer Interferometry (BLI)
MagHelix™ Mass Spectrometry (MS)
MagHelix™ Dynamic Light Scattering (DLS)
MagHelix™ Thermal Shift Assay (TSA)
MagHelix™ Isothermal Titration Calorimetry (ITC)