Shimomura, Osamu

Johnson, Erank H., and Shimomura, Osamu (1978). Introduction to the Cypridina System. In Methods in Enzymology, Vol. LVII Bioluminescence and Chemiluminescence, Section V. New York Academic Press. [Pg.149]

Japanese-American chemist Osamu Shimomura is born on August 27 in Kyoto, Japan. [Pg.166]

Osamu Shimomura performs the research on the green fluorescent protein that leads to the Nobel Prize in chemistry. [Pg.167]

Osamu Shimomura, Martin Chalfie, and Roger Y. Tsien each receives 1/3 of the Nobel Prize in chemistry for the discovery and development of the green fluorescent protein. [Pg.168]

Martin Chaifie, Osamu Shimomura, Roger Y. Tsien 1954 Linus Pauling... [Pg.121]

GENDO OOME, FUMINORI HONDA, TOMOKO KAGAYAMA, FUMITAKE ITOH2, HIROSHI SAKURAF, HIROSHI KAWATA and OSAMU SHIMOMURA ... [Pg.323]

Osamu Shimomura (Japan), Martin Chalfie (United States), and Roger Y. Tsien (United States) for the discovery and development of the green fluorescent protein, GFR These three scientists received the prize for their work with a protein simply called green fluorescent protein, or GFR This protein was first observed way back in 1962 in a jellyfish. It eventually became a very important molecule in the biological sciences, as clever researchers have found ways to use GFP to study otherwise invisible chemical processes. Shimomura, Chalfie, and Tsien were at the forefront of the major discoveries that led to the understanding of GFP that researchers possess today. [Pg.359]

It can be determined if the protein is associated with the cell membrane, if it is ever transferred from one cell to another, what its fate is during embryonic development, and so on. The key is that the chromophore forms with no assistance, and so the fluorescence develops in almost any environment. In fact, green fluorescent animals have been prepared by transgenically incorporating GFP into the animal s genome. GFP-based assays for various cellular processes have been developed because the fluorescence is so easy to detect. Entire volumes have been written on the diverse ways this structure from a jellyfish has been put to good use. The 2008 Nobel Prize in Chemistry was awarded to Osamu Shimomura, Martin Chalfie, and Roger Tsien for their discovery and development of GFP. [Pg.947]

Green fluorescent protein (GFP), first isolated from biolumlnescent jellyfish, Is a protein containing 238 amino acid residues. The discovery of GFP has revolutionized the field of fluorescence microscopy, which enables biochemists to monitor the biosynthesis of proteins. The 2008 Nobel Prize in Chemistry was awarded to Martin Chalfie, Osamu Shimomura, and Roger Tsien for the discovery and development of GFP. The structural subunit of GFP responsible for fluorescence, called the fluorophore, results when three amino acid residues undergo cyclization. Identify the three amino acids that go into the biosynthesis of this fluorophore ... [Pg.1227]

I ll begin by telling you a bit about fluorescent proteins and how they ve revolutionized experimental biology. A key contributor to this area is Professor Roger Y. Tsien of University of California, San Diego (UCSD) As I m sure you know. Professor Tsien, along with Martin Chalfie and Osamu Shimomura, received the 2008 Nobel Prize in Chemistry for the discovery and development of a fluorescent protein called green fluorescent protein (GFP). You should definitely look up his Nobel Prize lecture and maybe even make an effort to visit his laboratory. [Pg.121]

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