Professor Ehud Shapiro of the Weizmann Institute of Science has received the 2004 World Technology Award for Biotechnology. The award is one of 30 given yearly by the World Technology Network (WTN) to those individuals and organizations whose innovations are likely to have a major impact on the technology and society of the future.
Shapiro - who works in both the Computer Science and Applied Mathematics, and the Biological Chemistry departments of the Weizmann Institute in Rechovot - has been recognized for the creation of biomolecular computing devices. So small that more than a trillion fit into one drop of water, these devices are made entirely of DNA and other biological molecules. A recent version of the biomolecular computing device was programmed by Shapiro and his research team to identify signs of specific cancers in a test tube, to diagnose the type of cancer, and to release drug molecules in response. Though cancer-detecting computers are still in the very early stages, and can thus far only function in test tubes, Shapiro and his research team envision future biomolecular devices that may be injected directly into the human body to detect and prevent or cure disease.
Award winners are chosen by their peers in the WTN. The Network's membership is made up of past and present award winners and finalists, and today comprises over 800 individuals and organizations from 50 countries. Its stated goal is to bring together the people judged the most innovative in their fields, and to foster cross-disciplinary dialogue and advance the development of new ideas by having them take part in the "virtual think tank," as well as in yearly summits, global and regional events, and publications. The WTN is supported by, among others, Nasdaq, the AAAS, Science, Fortune and Microsoft.
Yaakov Benenson, Shapiro's graduate student who had a key role in creating the biomolecular computers, received a 100 Top Young Innovators Award last month from MIT's Technology Review Magazine.
The award was presented to Prof. Shapiro in a formal ceremony at the closing of the World Technology Summit, held in the San Francisco City Hall in early October.
Shapiro - who works in both the Computer Science and Applied Mathematics, and the Biological Chemistry departments of the Weizmann Institute in Rechovot - has been recognized for the creation of biomolecular computing devices. So small that more than a trillion fit into one drop of water, these devices are made entirely of DNA and other biological molecules. A recent version of the biomolecular computing device was programmed by Shapiro and his research team to identify signs of specific cancers in a test tube, to diagnose the type of cancer, and to release drug molecules in response. Though cancer-detecting computers are still in the very early stages, and can thus far only function in test tubes, Shapiro and his research team envision future biomolecular devices that may be injected directly into the human body to detect and prevent or cure disease.
Award winners are chosen by their peers in the WTN. The Network's membership is made up of past and present award winners and finalists, and today comprises over 800 individuals and organizations from 50 countries. Its stated goal is to bring together the people judged the most innovative in their fields, and to foster cross-disciplinary dialogue and advance the development of new ideas by having them take part in the "virtual think tank," as well as in yearly summits, global and regional events, and publications. The WTN is supported by, among others, Nasdaq, the AAAS, Science, Fortune and Microsoft.
Yaakov Benenson, Shapiro's graduate student who had a key role in creating the biomolecular computers, received a 100 Top Young Innovators Award last month from MIT's Technology Review Magazine.
The award was presented to Prof. Shapiro in a formal ceremony at the closing of the World Technology Summit, held in the San Francisco City Hall in early October.