Top 23 Quotes & Sayings by Susumu Tonegawa

Explore popular quotes and sayings by a Japanese scientist Susumu Tonegawa.
Last updated on November 21, 2024.
Susumu Tonegawa

Susumu Tonegawa is a Japanese scientist who was the sole recipient of the Nobel Prize for Physiology or Medicine in 1987 for his discovery of V(D)J recombination, the genetic mechanism which produces antibody diversity. Although he won the Nobel Prize for his work in immunology, Tonegawa is a molecular biologist by training and he again changed fields following his Nobel Prize win; he now studies neuroscience, examining the molecular, cellular and neuronal basis of memory formation and retrieval.

My scientific career has developed on three continents: Asia, Europe and North America.
In the early Seventies, the technology for purifying a specific eukaryotic mRNA was just becoming available.
When General Motors builds a car, they want to meet the specific needs of many customers. But if they custom-make each car, then it will not be economical. — © Susumu Tonegawa
When General Motors builds a car, they want to meet the specific needs of many customers. But if they custom-make each car, then it will not be economical.
The brain is probably the most mysterious subject there is.
I commuted to the prestigious Hibiya High School from my uncle's home in Tokyo. During the high school years, I developed an interest in chemistry, so upon graduation, I chose to take an entrance examination for the Department of Chemistry of the University of Kyoto, the old capital of Japan.
My father was an engineer working for a textile company that had several factories scattered in rural towns in the southern part of Japan.
After I arrived in Basel, I initially attempted to continue the project of my days in Dulbecco's laboratory, namely, the transcriptional control of the simian virus 40 genes.
Immunologists agreed that an individual vertebrate synthesizes many millions of structurally different forms of antibody molecules even before it encounters an antigen.
Even under normal conditions, how we can distinguish various events, various experiences, and be able to reproduce it later is, of course, a very interesting question and, I think, one that we face in day to day life.
At the suggestion of Professor Itaru Watanabe, and with his help, I left Japan at the age of twenty-three to pursue graduate study at the University of California at San Diego.
It doesn't matter whether it is chemistry or immunology or neuroscience: I just do research on what I find interesting.
Humans are very imaginative animals.
I decided to pursue graduate study in molecular biology and was accepted by Professor Itaru Watanabe's laboratory at the Institute for Virus Research at the University of Kyoto, one of a few laboratories in Japan where U.S.-trained molecular biologists were actively engaged in research.
I see myself as a scientist who is interested in what's going on inside of us.
The brain is hugely complicated, and because it is so complicated, it requires multidisciplinary research.
Recalling a memory is not like playing a tape recorder. It's a creative process.
I became fascinated by the then-blossoming science of molecular biology when, in my senior year, I happened to read the papers by Francois Jacob and Jacques Monod on the operon theory.
Although we often discussed the idea of research on the nature of antigen recognition by T cells in the laboratory in the late Seventies while I was still in Basel, the real work did not start until the early Eighties in my new laboratory at M.I.T.
In 1981, after ten years in Basel, I returned to the United States to continue my research on the immune system at the Center for Cancer Research of the Massachusetts Institute of Technology where Director Salvador E. Luria provided me with an excellent laboratory.
Our study showed that the false memory and the genuine memory are based on very similar, almost identical, brain mechanisms. It is difficult for the false memory bearer to distinguish between them.
We found out that, contrary to what many people thought, in the immune system, genes can change during the life cycle of the individual. — © Susumu Tonegawa
We found out that, contrary to what many people thought, in the immune system, genes can change during the life cycle of the individual.
Independent of what is happening around you in the outside world, humans constantly have internal activity in the brain.
The water bath has a platform which the rats learn to find because they don't like to get wet. Then you remove the platform. But you don't tell the rats.
This site uses cookies to ensure you get the best experience. More info...
Got it!