Nobel Prize Winner, political leaders, CEOs, athletes, artistis and scientists. What do they all have in common? They all received a Waldorf education.
“Thomas Südhof is a consummate citizen of science. His unrelenting curiosity, his collaborative spirit, his drive to ascertain the minute details of cellular workings, and his skill to carefully uncover these truths — taken together it’s truly awe-inspiring.”
– Lloyd Minor, MD, Dean of the School of Medicine, Stanford University
… I spent my childhood in Göttingen and Hannover, and graduated from the Hannover Waldorf school in 1975. I had been interested in many different subjects as a student, any subject except sports. I did not know what to do with my life after school, except that I was determined not to serve in the military. More by default than by vocation, I thus decided to enter medical school, which kept all avenues open for a possible career in science or as a practitioner of something useful – being a physician – and allowed me to defer my military service. I studied first in Aachen, the beautiful former capital of Charles the Great, and then transferred to Göttingen, the former scientific center of the Weimar republic, in order to have better access to laboratory training since I became more and more interested in science. Soon after arriving in Göttingen, I decided to join the Dept. of Neurochemistry of Prof. Victor P. Whittaker at the Max-Planck-Institut für biophysikalische Chemie. I was attracted to this department because it focused on biochemical approaches to probe the function of the brain, following up on Whittaker’s discovery of synaptosomes in the two preceding decades, his development of methods to purify synaptic vesicles, and his increasing interest in the cell biology of synaptic vesicle exo- and endocytosis. As a lowly ‘Hiwi’ (‘Hilfswissenschaftler’ for ‘helping scientist’) in Whittaker’s department, I was assigned the task of examining the biophysical structure of chromaffin granules, which are large secretory vesicles of the adrenal medulla that store catecholamines and ATP … read on