Fluorescence end-point assays in 96-well microplate format with methodologies simila...
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Ultra low temperature freezers
The spotlight is on environmentally-friendly design in the new BINDER ultra low temperature freezer....
ENDONEXT™ Bacterial Endotoxin Testing
The Evolution of Endotoxin Detection happens now! As part of any general pyrogen testing strategy...
In-vitro cytotoxicity test (as per DIN EN...
The ability of a substance to damage cells or tissue is referred to as cytotoxicity. The ...
ENDOZYME® II GO (Endotoxin test)
MAIN BENEFITS: Fluorescence end-point assays in 96-well microplate format with methodologie...
Implants and implant systems dental
Implants and implant systems dental With SonicWeld Rx® we have developed a revolutionary proc...
Homogeneous light in combination with a constant temperature and humidity is necessary to achieve id...
Tests as part of the validation of instructions...
Manufacturers and distributors of medical deviceswhich are designed for reuse, must provide informat...
BINDER drying chambers: top-quality laboratory...
BINDER laboratory ovens with gravity convection or forced-air convection are renowned for their qual...
ENDOLISA® (Endotoxin detection)
Overcomes limitations of conventional methods, such as inhibition and enhancement...
BINDER humidity chambers stand out when testing material behaviors under constant temperature and hu...
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Biochemistry
The term "biochemistry" describes teaching about the chemical foundations of biological processes and functions. Biochemistry, formerly physiological chemistry (Greek biochemistry, life chemistry), is the study of biochemical processes. She works on the boundaries or overlapping areas between chemistry, biology and physiology. In this process, the focus is on the substance group of nucleic acids, proteins, lipids, carbohydrates and their derivatives, which are often referred to as biomolecules. The most important biochemical processes take place in organisms and therefore take place in an aqueous environment. A large number of methods from different areas are used in biochemistry. Classical biochemistry mainly uses analytical chemistry, organic chemistry, physical chemistry, and physics. Important techniques include centrifugation, chromatography, electrophoresis, spectroscopy, isotope technology, crystallization, potentiometry, electrometric method, polarography and pressure measurement techniques. Molecular biological methods and methods from computer science, microbiology and other disciplines have also been added in the last few decades. In addition, mathematical methods are always used in modern biochemistry to evaluate the results quantitatively. Since the beginning of the 19th century, biochemistry has evolved from biology, chemistry and medical physiology and has been closely linked to genetics and cell biology from the beginning. These sciences continue to advance hand in hand, and their boundaries greatly overlap.