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Peltier-cooled incubator IPP, ideal for protein crystallography

Hardly any vibrations, almost no noise, highly precise and accurate. The PhosphoSites research group at the University Hospital in Frankfurt, doing basic research on protein kinases, cultivates its protein crystals in a Memmert incubator IPP.

Every child learns that proteins are vital, and dutifully eats an egg for breakfast. But not many people know about the significance of this central component of life, of which there are several hundred thousand in the human body. Haemoglobin transports oxygen to the blood, collagen supports the skin and bones, antibodies repel pathogens, enzymes work as catalysts for biochemical reactions, other proteins support the movements of the muscle apparatus or the transmission of pulses between nerve cells. Proteins essentially consist of 20 different amino acids.

The complexity of protein research is down to the seemingly infinite sequences of amino acids, as well as specific spatial structures. The largest known protein, titin, which is essential for muscle function, consists of more than 27,000 amino acids, for example.

Hope for diabetics, cancer sufferers and Alzheimer patients

A market worth millions has now formed around research into proteins, and there is hardly a university that does not have its own research group for protein biochemistry, proteomics, or specifically for structural biology/protein crystallography. While the pharmaceutical industry is developing commercially exploitable drugs with the help of protein crystallography, academic workgroups such as the PhosphoSites research group at the University Hospital in Frankfurt, led by Dr. Ricardo M. Biondi, are doing basic research in which protein crystallography is one of several methods used to find answers in their research field. In the case of the Frankfurt team, this involves the phosphorylation of proteins by enzymes, so-called protein kinases, which in case of malfunction can trigger cancer, diabetes and neurological diseases. Dr. Jörg Schulze, a member of Dr. Biondi’s team, estimates that 30 percent of the drugs that are currently being developed are involved with protein kinases, and that the trend is increasing.

The atomic structure of the protein crystal is being explored

Protein crystallography researches the atomic structure of protein molecules and thus enables conclusions to be drawn regarding mechanisms in the human body. In this research, X-rays are diffracted on the lattice structure of a protein crystal, a detector registers the reflexes of the diffraction patterns and, using complex mathematical correlations, calculates the 3-dimensional electron density, representing the spatial arrangement of the amino acids. Simple as this sounds, protein crystallography in reality is extremely complex. One big challenge is to cultivate perfect single protein crystals.

Protein crystals must grow in a low-vibration environment

The sensitive protein crystals grow in the cooled incubator, as slowly and with as little vibration as possible, at constant temperatures between 4 °C and 20 °C, often for weeks or months. Above all because of its low-vibration properties, the PhosphoSites research group decided on the Memmert incubator IPP 400 as a crystal growth chamber ideal to store these crystallization preparations, since it controls temperature with high accuracy due to its Peltier technology without a compressor.

The ventilator in the cooled incubator was scaled down in power specifically for the requirements of protein crystallography, in order to minimise two crucial features: low noise and low vibration.

Control precision in the cooled incubator with Peltier technology

In addition to low noise and low vibration, the exact controllability of the incubator plays a crucial role in crystallization, since temperature fluctuations can influence the reproducibility of the crystals, particularly during the nucleation phase. 10 years ago, Memmert first managed to adapt Peltier technology for more powerful laboratory equipment – so that this could be heated and cooled with just a single system. A Peltier element in a Peltier-cooled incubator is switched up to 16,000 times a second, thus enabling an extremely sensitive temperature control.

 

An overview of focus topics

  • Protein Crystallography
  • Protein kinases
  • Protein molecules
  • Crystallization
  • Crystal growth chamber
  • Peltier-cooled Incubator
  • Peltier technology
  • Peltier element
  • Control precision
  • Low vibration
  • Low noise

 

Picture credit: PhosphoSites research group