Many diseases can be traced back to mutations of the genome. Therefore, the pharmaceutical industry is working hard on medication with direct effect on certain human genes. The precondition for this is the identification of the mutations in genetic research centres and the subsequent characterization of the mechanisms by which these gene mutations can cause diseases. Carmen Van Waeyenberghe, Memmert distributor in Belgium, visited Dr. Andy Willaert at the Center for Medical Genetics at Ghent University (CMGG) on behalf of AtmoSAFE and learned some interesting facts about the small zebrafish and its great mission as a model organism in genetics.
Due to their strong biological similarity to humans and due to its transparent embryos that develop outside the mother’s body, zebrafish have been used as model organisms for human developmental diseases for more than 20 years now. After the egg has been fertilised, it takes only 5 days for the zebrafish to develop from embryo to a fully grown fish. Another advantage for the researchers is that the females are very fertile. On average, they lay 200 to 300 eggs per week, so that research results can also be statistically verified at minimal cost.
To develop perfectly, zebrafish embryos need as much peace and quiet as possible during growth. Andy Willaert's search for a fish incubator with light but without a noisy and vibrating compressor had been difficult in the beginning. Eventually, Carmen Van Waeyenberghe of Voor’t Labo recommended the Memmert constant climate chamber HPP 108 with illumination unit, because its interior is heated and cooled precisely by Peltier technology without disturbing vibrations and noise. Additionally, the Memmert technical service further reduced the performance of the air turbine to eliminate this source of noise as far as possible. Thanks to the constant climate chamber’s LED lighting active from 8 am to 10 pm, zebrafish embryos can grow in a nature-like environment at a constant temperature of 28 °C.
Based on zebrafish research, Andy Willaert [1] and his colleagues do research on genetic diseases of the cardiovascular system like the arterial tortuosity syndrome, a disease of the connective tissue mainly characterised by tortuosity and elongation of the arteries. It can lead to severe narrowing of the blood vessels, aneurysm formationand dissections. Apart from that, their research focuses on genetic dysfunctions in connection with the formation of bones and skin tissue.
Memmert would like to thank Dr. Andy Willaert, the Center for Medical Genetics at Ghent University (CMGG) and Carmen Van Waeyenberghe, Memmert distributor in Belgium, for the friendly support in writing this article.