We have manufacturers, suppliers and service providers from the area Transilluminators for electrophoresis

A transilluminator is a device for enhancing objects, specimens, or electrophoresis apparatus. It may use an array of LEDs with filtered and controllable emission wavelengths to provide illumination to a sample. The transilluminator can have several features, including different levels of brightness and a large number of colors. For example, the light may be directed in a circular pattern to illuminate nucleic acid fragments or specimens.

The main function of a transilluminator is to provide enhanced visualization of the object or specimen during analysis. This device consists of a transmittance plate and a light source that projects an array of light through the plate. The LEDs project a substantially uniform amount of light onto the plate. The transmittance layer filters the incoming light energy to allow only those wavelengths to reach the sample.

The present invention provides a transilluminator that is capable of providing visual enhancement. The light source may comprise high-intensity LEDs (20D) that emit visible light that can penetrate the sample. This technology also improves the thermal properties of the device. This device is ideal for performing electrophoresis in a laboratory setting. The transilluminator allows for the analysis of small samples and helps scientists find the missing pieces.

UV transilluminators emit a high level of ultraviolet light through the viewing surface of the transilluminator. These UV lights bind to nucleic acids and cause them to fluoresce under the UV light. Thus, the faint bands that were previously visible are now readily visible. This is a useful feature for high-throughput research. In contrast, variable-light intensity systems provide two-, three-, or four-color illumination.

A transilluminator is an apparatus that provides backlighting for photographs. In the present invention, the transilluminator comprises a housing, a transmittance plate, an array of LEDs, and a cover pivotally mounted to the housing. The transmittance plate supports a nucleic acid fragment or specimen. A transilluminator is a device for nucleic acid analysis.

A transilluminator can illuminate nucleic acid specimens with various wavelengths. The two most common wavelengths used in the electrophoresis process are 300 and 350 nanometers. In addition, a multi-color LED transilluminator has many advantages. A multi-color LED can be switched easily between the wavelengths of the sample. It can also be customized to meet specific requirements.

In addition to a light source, a transilluminator can also include a diffusing screen. The diffuser sheet is located closest to the LEDs. A transilluminator may be made of polymer or glass. It can also incorporate multiple wavelengths, which are useful when the sample is sensitive to one or more colors. A fluorescent screen can be useful in the case of gel electrophoresis and other types of bioimaging.

A UV transilluminator may be used to illuminate a sample. The LEDs are typically connected to a switch. The light is either transmitted or reflected. In other cases, the fluorescent gel is exposed to a UV light. In these cases, the UV light is reflected. A multi-color system is useful for comparing samples. A fluorescent screen can display the difference between two colors.

Conventional transilluminators have disadvantages. They are large and bulky, and consume large amounts of power. Furthermore, they do not meet the needs of the lab. For example, the transilluminators of the present invention include a housing that has a base portion and top and sidewall portions. The top and bottom portions of the housing define an enclosure that is substantially impervious to light.

A UV transilluminator is a good choice for high-quality, high-resolution imaging of DNA or RNA. Using a UV transilluminator is an excellent way to monitor a sample's integrity. Its fluorescent dye binds to the nucleic acid in the gel, and makes it visible. A UV transilluminator is also useful in sizing PCR products. It can be used to confirm the integrity of RNA after extraction.

Unlike UV systems, visible light transilluminators are relatively inexpensive. These units require less electricity and less initial set-up. A 120-volt connection is suitable for laboratory power outlets in the United States. 240-volt connections are most common in Europe. Moreover, they require smaller conductors and can handle a lower current. There are various options for the amplification of nucleic acids.