Brief introduction: Electrical transformation can be used to transfer DNA into recipient bacteria, animal and plant cells, and yeast cells. Compared with the chemical method, the electroconversion method can obtain higher conversion efficiency. This method is more reproducible than other methods, easy to operate and save time, and has become an indispensable basic technology of molecular biology. The integrated design of the instrument, simple operation, intuitive display, microprocessor controlled pulse discharge using man-machine dialogue interface, simple operation, intuitive, refined the capacitance, resistance setting range, The electroporation experiment of cells has a wider choice under the relevant conditions. Characteristics: Integration of the whole machine, simple operation, visual display Microprocessor controlled pulse discharge, touch screen display Experimental log storage Unlimited custom program storage Simple operation and short conversion time High conversion efficiency Good repeatability. Areas of application: Electrotransformation of bacteria, yeast and other microorganisms Transfection of mammalian cells Transfection of Plant tissue and Protoplast Cell hybridization, fusion, gene transfer Introduction of marker genes as markers and indicators Introduction of specific functional genes Studies on the structure and function of cells by introducing drugs, proteins, antibodies and other molecules Technical parameters: Pulse form: exponential decay High voltage output voltage: 400-2500V Low voltage output voltage: 50-450V High voltage capacitance: 1,5,6,25,26,30,31UF 、Low Voltage Capacitor: 100UF125UF15UF-8230U 1675UFF, step by step with 25UF And the resistor: 50,100,150,1600;-∞ 30 files Operating system: microcomputer control Time constant: with RC time constant, can be set at any time Display mode: touch screen liquid crystal display Mainframe shape size: 36.8*31.6*22.9(cm) Main engine net weight: 10.5Kg Packing size: 480*420*280mm.
Brief introduction: Electrical transformation can be used to transfer DNA into recipient bacteria, animal and plant cells, and yeast cells. Compared with the chemical method, the electroconversion method can obtain higher conversion efficiency. This method is more reproducible than other methods, easy to operate and save time, and has become an indispensable basic technology of molecular biology. The integrated design of the instrument, simple operation, intuitive display, microprocessor controlled pulse discharge using man-machine dialogue interface, simple operation, intuitive, refined the capacitance, resistance setting range, The electroporation experiment of cells has a wider choice under the relevant conditions.
