CUV series UV transilluminator Introduction
The Clinx UV Transmitting Station can be used for the observation and gel cutting of nucleic acid (DNA/RNA) gel electrophoresis. The compact structure design and unique transparent UV protection plate not only make the observation and cutting of the electrophoresis gel easy and convenient, but also minimize the damage of the ultraviolet rays to the operator.
A variety of models are available: single wavelength UV / dual wavelength UV, fixed / adjustable light intensity. The single-wavelength UV transmission station is equipped with a 302nm UV lamp. The dual-wavelength transmission table is equipped with 302nm and 365nm UV lamps. Users can choose UV lamps with different wavelengths according to the experiment.
302nm UV maximizes the excitation of EB/DNA complexes with high sensitivity and clear bands of observation. The light intensity and brightness are uniform, and it is equipped with special UV filter glass with selective absorption ability for specific wavelength UV. The detection sensitivity is as low as ng, which ensures the observation of trace DNA. The sealing structure greatly reduces the possibility of contamination of the UV transmission table gel and damage to the internal structure, ensuring an extremely long service life of the UV transmission table.
It can be widely used in research institutes and enterprises involved in life science research fields such as molecular biology, molecular genetics, medical and health, biological products, and agriculture.
Feature
With the operator's perspective, the UV protection panel can be adjusted and fixed at any angle to provide maximum UV protection without affecting the observation.
The single-wavelength UV transmission station is equipped with a 302nm UV lamp as standard, and a variety of wavelengths are available to match different dyes such as the commonly used SYBR-Green, SYPRO-Orange and other dyed gels.
The dual-wavelength UV transmission station meets the different needs of the experiment. The 302nm is suitable for DNA/RNA observation and analysis. The 365nm is suitable for observation and cutting bands to reduce DNA damage.
The special UV filter glass has good permeability to specific wavelength UV, which can ensure higher detection sensitivity and enhance the signal capture capability of the weak band.
Reasonable structural design and high-quality UV lamp, UV-transparent inspection area to detect uniform UV light.
The compact UV transilluminator is easy to operate and the sealing structure makes the maintenance of the instrument simpler.
Self-contained fan cooling for extended machine life.
Introduction
The Clinx UV Transmitting Station can be used for the observation and gel cutting of nucleic acid (DNA/RNA) gel electrophoresis. The compact structure design and unique transparent UV protection plate not only make the observation and cutting of the electrophoresis gel easy and convenient, but also minimize the damage of the ultraviolet rays to the operator.
A variety of models are available: single wavelength UV / dual wavelength UV, fixed / adjustable light intensity. The single-wavelength UV transmission station is equipped with a 302nm UV lamp. The dual-wavelength transmission table is equipped with 302nm and 365nm UV lamps. Users can choose UV lamps with different wavelengths according to the experiment.
302nm UV maximizes the excitation of EB/DNA complexes with high sensitivity and clear bands of observation. The light intensity and brightness are uniform, and it is equipped with special UV filter glass with selective absorption ability for specific wavelength UV. The detection sensitivity is as low as ng, which ensures the observation of trace DNA. The sealing structure greatly reduces the possibility of contamination of the UV transmission table gel and damage to the internal structure, ensuring an extremely long service life of the UV transmission table.
It can be widely used in research institutes and enterprises involved in life science research fields such as molecular biology, molecular genetics, medical and health, biological products, and agriculture.
