Shinya Inoue Net Worth
How much is Shinya Inoue worth? For this question we spent 12 hours on research (Wikipedia, Youtube, we read books in libraries, etc) to review the post.
The main source of income: Authors
Total Net Worth at the moment 2021 year – is about $1 Million.
Shinya Inoue information Birth date: January 5, 1921 Birth place: London, United Kingdom Profession:Editor Education:Princeton University (1951)Awards:International Prize for Biology, E.B. Wilson Medal, Guggenheim Fellowship for Natural Sciences, US & CanadaBooks:Video microscopy
:How tall is Shinya Inoue – 1,67m.
How much weight is Shinya Inoue – 50kg
Shinya Inou? (?? ??, Inoue Shin', ya, born January 5, 1921) is a Japanese-born American biophysicist and cell biologist, a member of the National Academy of Sciences. His research field is the visualization of dynamic processes within living cells using light microscopy. Currently he is a researcher at the Marine Biological Laboratory.Inoue can be considered the father of the field of cytoskeleton dynamics. In the 1940s and 50s he built the first microscope capable of imaging dynamic processes in live cells, using polarized light, and proved for the first time that the mitotic spindle is composed of aligned protein fibers. We now know these fibers are microtubules. By perturbing cells with agents that cause microtubules to depolymerize (e.g. colchicine or high pressure) or polymerize excessively (e.g. D2O), Inoue demonstrated that spindle fibers are in a state of rapid dynamic equilibrium with a pool of soluble subunits in the cytoplasm. He went on to show that artificial polymerization and depolymerization of spindle fibers can generate forces within the cell, and proposed that chromosomes are normally moved by such forces during mitosis. These ideas were summarized in a seminal review in 1967. He also was the first to develop video microscopy, and wrote a major textbook on the subject. Consistent with Inoue', s pioneering ideas, it is now widely believed that chromosome movement during mitosis is powered by microtubule depolymerization. We also know that force generation by polymerization and depolymerization of cytoskeletal protein fibers is perhaps the most ancient of motile mechanisms within cells, whose use extends back to bacteria.
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Wikipedia Source: Shinya Inoue