The Pasteur Museum is housed in the apartment where Louis Pasteur spent his final seven years and offers a rare behind-the-scenes look at the living and working environment of the world-renowned scientist. Visitors can gain a unique insight into his everyday life alongside his wife and can admire his rich and diverse scientific work.
The Institut Pasteur’s scientific strategy focuses on developing original and innovative topics and promoting interdisciplinary and multidisciplinary cooperation and approaches. The Institut Pasteur teams have access to the technological resources needed to speed up and further improve the quality of their outstanding research.
Ever since the introduction of the world’s first "Technical Microbiology" course in 1889, teaching has been a priority for the Institut Pasteur. The Institut Pasteur has an international reputation for quality teaching that attracts students from all over the world who come to further their training or top up their degree programs.
The mission of the Industrial Partnership team is to detect, promote, assist and protect the inventive activities from research (inventions, know-how and biological materials) conducted at the Institut Pasteur (and in some Institutes of its international network), and transfer there to industrial and/or institutional partners, in order to serve the patient needs and for the benefit of the society, as well as to contribute to sustainability of the Institut Pasteur’s resources.
With international courses, PhD and postdoctoral traineeship, each institute of the Institut Pasteur International Network (RIIP) contributes to the transmission of knowledge with the training of young researchers all around the world. In this context, doctoral and postdoctoral programmes, study and traineeship fellowships are available to scientists. Alongside training, dynamism and attractiveness of RIIP will result in the creation of 4-year group for the young researchers.
In 1847 Louis Pasteur, a young chemist freshly graduated from the prestigious Ecole normale supérieure, set to work on the problem posed by German physicist Eilhard Mitscherlich, namely, why do sodium ammonium paratartrate and tartrate - two seemingly identical chemical substances - affect polarized light differently ?
Crystallography and molecular asymmetry
1847 : research on molecular asymmetry
After several years of research involving crystallography, chemistry and optics, Louis Pasteur drew a parallel between the external form of crystal, its molecular make-up and its effect on polarized light. He discovered that asymmetric crystals deflect polarized light whereas this is not possible for crystals with a plane of symmetry.
He established a law of primary importance. " Only products originating under the influence of life are asymmetrical because they developed under the influence of cosmic forces which were themselves asymmetrical. " Asymmetry is the major dividing line between the organic and mineral worlds.
Louis Pasteur’s work led to a new science: stereochemistry or spatial chemistry. It was also behind the emergence of synthetic chemistry.
Fermentation, a life’s work from 1857 to 1862
1857 : beginning of research on fermentation
It was while observing paratartrate crystals that Louis Pasteur discovered molecular asymmetry. When examining a paratartaric acid solution, he also noticed that the acid had fermented and been dissociated under the effect of mold. The fermented liquid now only contained left tartaric acid. The right tartaric acid had been decomposed or " disassembled ". Thus a substance inactive on polarized light (paratartaric acid) had become active (left tartaric acid) under the effect of fermentation.
Before these findings it was universally acknowledged that fermentation was a death process according to the belief of the famous German chemist, Justus von Liebig. On completion of these experiments Louis Pasteur established a theory that ran counter to this dogma. Since all active substances come from the living environment, fermentation is a life process. Only life generates substances that are active on polarized light.
Through a logical sequence of studies, it was this initial observation that led from molecular asymmetry to fermentation and then on to contagious diseases.
1857-1862: beginning of research on fermentation
In 1854, at the age of 32 years Louis Pasteur was appointed Dean of the Science Faculty in Lille.
He was soon contacted by several of the region’s many distilleries. The distillers were concerned about variations in their beetroot alcohol production. They therefore requested Louis Pasteur to focus research on lactic acid and alcohol fermentation.
He noted that :
- alcohol fermentation is due to a living organism - ferment
- to study fermentation you need to:
- prepare a sterile fermentable culture medium, obtained through boiling
- inoculate the medium with a trace of pure ferment.
This was the basis of all microbiological techniques.
In studying the fermentation mechanism that confirmed the role and specificity of microorganism action, Louis Pasteur began to turn to biology. From this moment on he was no longer a mere chemist but also a biologist.