Awards & Winners

Martin Evans

Date of Birth 01-January-1941
Place of Birth Stroud
(Stroud District, United Kingdom)
Nationality United Kingdom
Sir Martin John Evans FRS is an English scientist who, with Matthew Kaufman, was the first to culture mice embryonic stem cells and cultivate them in a laboratory in 1981. He is also known, along with Mario Capecchi and Oliver Smithies, for his work in the development of the knockout mouse and the related technology of gene targeting, a method of using embryonic stem cells to create specific gene modifications in mice. In 2007, the three shared the Nobel Prize in Physiology or Medicine in recognition of their discovery and contribution to the efforts to develop new treatments for illnesses in humans. He won a major scholarship to Christ's College, University of Cambridge at a time when advances in genetics were occurring there and became interested in biology and biochemistry. He then went to University College London where he learned laboratory skills under Dr Elizabeth Deuchar. In 1978, he moved to the Department of Genetics, at the University of Cambridge, and in 1980 began his collaboration with Matthew Kaufman. They explored the method of using blastocysts for the isolation of embryonic stem cells. After Kaufman left, Evans continued his work, upgrading his laboratory skills to the newest technologies, isolated the embryonic stem cell of the early mouse embryo and established it in a cell culture. He genetically modified and implanted it into adult female mice with the intent of creating genetically modified offspring, work for which he was awarded the Nobel Prize in 2007. Today, genetically modified mice are considered vital for medical research.

Awards by Martin Evans

Check all the awards nominated and won by Martin Evans.

2009


Copley Medal
(For his seminal work on embryonic stem cells in mice, which revolutionised the field of genetics.)

2007


Nobel Prize in Physiology or Medicine
(for their discoveries of principles for introducing specific gene modifications in mice by the use of embryonic stem cells)

2001


Albert Lasker Award for Basic Medical Research
(For the development of a powerful technology for manipulating the mouse genome with exquisite precision, which allows the creation of animal models of human disease.)