The G2545A: An Essential Tool for Nucleic Acid Hybridisation
The Agilent G2545A Hybridisation Oven is an essential piece of equipment for molecular biology laboratories, designed to optimise nucleic acid hybridisation processes. This device combines high-performance temperature control technology with a precise rotation system, enabling uniform and reliable hybridisation results.
Hybridisation is an essential technique in molecular biology, used to detect and analyse specific DNA or RNA sequences. The G2545A is specially designed to meet the requirements of this technique, offering precise temperature control, a key factor in ensuring optimal hybridisation reactions. The device maintains a stable temperature with a resolution of 0.1°C, which is crucial for avoiding temperature variations that can affect results.
In addition to its high-performance temperature control, the G2545A incorporates a rotation system (rotator) that ensures even distribution of samples in the hybridisation chamber. This rotator, operating at an adjustable speed of 4 to 20 rpm, prevents temperature gradients and improves the efficiency of hybridisation reactions. The design of the hybridisation chamber, with its generous dimensions (36.8 cm x 30.5 cm x 36.8 cm), allows several samples to be processed simultaneously, thus increasing laboratory productivity.
The G2545A is simple and intuitive to install and use. The control panel, located at the front of the device, allows easy adjustment of the temperature and rotation speed, while displaying the operating parameters in real time.
In terms of maintenance, the G2545A is designed to be easy to maintain. Regular cleaning of the chamber and removable components, such as the rotator and collection tray, ensures optimal performance over the long term.
The G2545A Hybridisation Oven is a versatile and high-performance tool, ideal for research laboratories, industrial facilities and educational environments. With its thermal accuracy, efficient rotation system and ease of use, it is the solution of choice for nucleic acid hybridisation applications.