The History of the Lindau Meetings


Held for the first time in 1951 the Lindau Meetings established themselves as a unique platform for the dialogue between different scientific generations. For more than 60 years now Laureates as well as young and promising Young Researchers are meeting once a year in Lindau. Read more...

Annual Reports


Every year the Council and the Foundation publish an Annual Report which provides an in-depth overview of all activities. Read more...

Prof. Dr. Dr. h.c. Hartmut Michel

Member of the Council

Nobel Laureate Prof. Dr. Hartmut Michel
Origin: Germany
Institution: Max-Planck-Institut für Biophysik
Year of Award: 1988
Discipline: Chemistry
Co-Recipients: Profs. Johann Deisenhofer and Robert Huber



German biochemists Hartmut Michel, Robert Huber, and Johann Deisenhofer (now based in the US), received the 1988 chemistry award for unravelling how a membrane-bound protein active in photosynthesis is built up. At the time the trio all worked at the Max-Planck Institute in Munich. Plants use the energy of light to build organic matter, creating the most basic foodstuff in the world’s food chain – vegetation. Furthermore, the plants produce oxygen, which allows bodies to burn the organic matter. Photosynthesis, says the official Nobel press release of the 1988 chemistry award, is “the most important chemical reaction on earth”. The conversion of energy in photosynthesis and cellular respiration takes place through the transport of electrons via a series of proteins, which are bound in special membranes. These proteins are difficult to obtain in a crystalline form, but in 1981 Michel succeeded, allowing him, with Deisenhofer and Huber, to study their structure.

Michel was born in Ludwigsburg, Germany, in 1948. He was an active, outdoors child and a good pupil and joined a circulating library, reading several educational books per week. After military service he entered the University of Tübingen in 1969 to study biochemistry, graduating in 1974, and working under Dieter Oesterhelt at the Max-Planck-Gesellschaft in Tübingen and the University of Würzburg, where he gained his PhD in 1977. While exploring ways to produce light-driven amino acid uptake Michel found that a sample of delipidated bacteriorhodopsin yielded solid, glass-like aggregates when stored in a freezer. Thus he was convinced that it should be possible to crystallise membrane proteins, which was considered impossible at the time. With Oesterhelt’s help Michel soon produced a two-dimensional membrane crystal of bacteriorhodopsin, and the fi rst real three-dimensional crystals in April 1979. The pair joined the Max-Planck-Institut für Biochemie near Munich, where Michel worked with Hans Deisenhofer, a member of Robert Huber's department, an expert in X-ray crystallographic protein structure analysis.

He also spent four months at the Medical Research Council in Cambridge, England, performing X-ray experiments and improving the crystallisation method. Back at Munich Michel crystallised several other membrane proteins, mainly photosynthetic ones, gaining his first success with the reaction centre from the purple bacterium Rhodopseudomonas viridis in 1981. The following year Michel was joined by Johann (Hans) Deisenhofer in the reaction centre project, and the pair became fast friends and colleagues. In 1987 Michel became a department head and director at the Max-Planck-Institut für Biophysik in Frankfurt am Main. He has received various prizes and awards, several with Deisenhofer and Huber. Michel is married to Elena Olkhova.


Since 2011, Hartmut Michel is a member of the Council for the Lindau Nobel Laureate Meetings.


At this phase of my life, I have the chance to work on health issues, agricultural issues, and on the need for innovation to help the poorest. This is why I am excited to be at the Meeting in Lindau. Because I think advances there will be particularly important and without you paying attention to them it is possible they will not take place.
William H. Gates III, Chairman of Microsoft and Member of The Honorary Senate