Development Services for Cell Microarray of Parasitic Organisms

Development Services for Cell Microarray of Parasitic Organisms

As the basic unit of structure and function of parasitic organisms, the cell of parasitic organisms has a considerable capacity for biological functions. The use of biochip technology to study cells has unparalleled advantages in terms of metabolic mechanisms, intracellular bioelectrochemical signal recognition and conduction mechanisms, control of various intracellular complex components, and stability of intracellular environment by other traditional methods. The cell microarray makes full use of microscopy or nanotechnology. It utilizes a series of geometrical, mechanical and electromagnetic principles to complete the precise control of cell capture, fixation, equilibrium, transport, stimulation, and cultivation on the chip, and through the miniaturization of chemical analysis methods to achieve the purpose of high-throughput, multi-parameter, continuous in situ signal detection and physicochemical analysis of cellular components.

Ace Therapeutics provides cell microarray system technology development services for parasitic organisms to customers worldwide. We have established a comprehensive cell microarray service system, providing an integrated microfluidic system, micro electroporation cell chip, cell immuno chip, etc., for you to choose flexibly according to your needs.

Cell Microarray Development Service Options for Parasitic Organisms

We can also provide cell microarray technology development services for a wide range of parasitic organisms, including but not limited to animals, plants, multicellular fungi, etc.

  • Animals — roundworms, tapeworms, pinworms, schistosomes, fleas, lice, etc.
  • Parasitic plants — Monotropa uniflora, Cuscuta chinensis, Cassytha filiformis, Orobanche ammophila, Cynomorium songaricum, etc.
  • Multicellular fungi — Wood fungus, porcini mushroom, shiitake mushroom, reishi, etc.

Note: In addition, there are other services for the development of cell microarrays for parasitic organisms for you to choose from, please consult us for details.

Experimental Operation Process

  1. Customer provides parasitic organism samples (tissue/ cell/ others)
  2. Sample preparation, reaction, isolation, detection, cell culture, sorting, lysis (and integration of the microarray).
  3. If there is no subsequent experiment, the microarray will be delivered to the customer.
  4. Scanning and data analysis.
  5. Provide a report of results.

Delivery Standard

  • Cell microarray of the parasitic organism samples
  • Microarray detection data
  • Complete experimental protocols, experimental reports (including software analysis results), and experimental materials


Development Services for Cell Microarray of Parasitic Organisms

  • To study the precise control and transport of parasitic cells.
  • To study the characteristic modifications of parasitic cells.
  • To study the communication and connection between parasitic cells and their internal and external environment.

Technical Advantages

Cell microarrays are of great significance for the analysis and determination of complex intracellular components of parasitic organisms, the study of interactions between components, as well as the metabolic processes of cells in vivo, intracellular signal transduction and cellular functions, and the treatment and drug screening of diseases. The emergence of microfluidic cell microarray technology provides an excellent technical platform for intracellular component analysis.

All of our services and products are intended for preclinical research use only and cannot be used to diagnose, treat or manage patients.

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