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DNA computing targets West Nile Virus, other deadly diseases
October 17, 2006Researchers say that they have developed a DNA-based computer that could lead to faster, more accurate tests for diagnosing West Nile Virus and bird flu. Representing the first "medium-scale integrated molecular circuit," it is the most powerful computing device of its type to date, they say.
The new technology could be used in the future, perhaps in 5 to 10 years, to develop instruments that can simultaneously diagnose and treat cancer, diabetes or other diseases, according to a team of scientists at Columbia University Medical Center in New York and the University of New Mexico, Albuquerque. Their study is scheduled to appear in the November issue of the American Chemical Society's Nano Letters, a monthly peer-reviewed journal.
"This is a big step in DNA computing," says Joanne Macdonald, Ph.D., a virologist at Columbia University's Department of Medicine. Macdonald led the research team that developed MAYA-II (Molecular Array of YES and AND logic gates) - a "computer" whose circuits consist of DNA instead of silicon. She likens the significance of the advance to the development of the earliest silicon chips. "The study shows that large-scale DNA computers are possible."
"These DNA computers won't compete with silicon computing in terms of speed, but their advantage is that they can be used in fluids, such as a sample of blood or in the body, and make decisions at the level of a single cell," says the researcher, whose work is funded by the National Science Foundation. Her main collaborators in this study were Milan Stojanovic, of Columbia University, and Darko Stefanovic, of the University of New Mexico.
Macdonald is currently using the technology to improve disease diagnostics for West Nile Virus by building a device to quickly and accurately distinguish between various viral strains and hopes to use similar techniques to detect new strains of bird flu. In the future, she suggests that DNA computers could conceivably be implanted in the body to both diagnose and kill cancer cells or monitor and treat diabetes by dispensing insulin when needed.
Scientists have tried for years to build computers out of DNA (deoxyribonucleic acid), nature's chemical blueprint for life. But getting nano-sized pieces of DNA to act as electrical circuits capable of problem-solving like their silicon counterparts has remained a major challenge.
In a series of laboratory demonstrations over a two-year period, Macdonald and her associates showcased the computer's potential by engaging MAYA-II in a complete game of tic-tac-toe against human opponents, winning every time except in the rare event of a tie. Shown in the foreground of the picture above is a cell-culture plate containing pieces of DNA that code for possible "moves"; a display screen (background) shows that the computer (red squares) has won the game against its human opponent (blue).
Composed of more than 100 DNA circuits, MAYA-II is quadruple the size of its predecessor, MAYA-I, a similar DNA-based computer developed by the research team three-years ago. With limited moves, the first MAYA could only play an incomplete game of tic-tac-toe, the researcher says.
The experimental device looks nothing like today's high-tech gaming consoles. MAYA-II consists of nine cell-culture wells arranged in a pattern that resembles a tic-tac-toe grid. Each well contains a solution of DNA material that is coded with "red" or "green" fluorescent dye.
The computer always makes the first move by activating the center well. Instead of using buttons or joysticks, a human player makes a "move" by adding a DNA sequence corresponding to their move in the eight remaining wells. The well chosen for the move by the human player responds by fluorescing green, indicating a match to the player's DNA input. The move also triggers the computer to make a strategic counter-move in one of the remaining wells, which fluoresces red. The game play continues until the computer eventually wins, as it is pre-programmed to do, Macdonald says. Each move takes about 30 minutes, she says.
American Chemical Society
"These DNA computers won't compete with silicon computing in terms of speed, but their advantage is that they can be used in fluids, such as a sample of blood or in the body, and make decisions at the level of a single cell," says the researcher, whose work is funded by the National Science Foundation. Her main collaborators in this study were Milan Stojanovic, of Columbia University, and Darko Stefanovic, of the University of New Mexico.
Macdonald is currently using the technology to improve disease diagnostics for West Nile Virus by building a device to quickly and accurately distinguish between various viral strains and hopes to use similar techniques to detect new strains of bird flu. In the future, she suggests that DNA computers could conceivably be implanted in the body to both diagnose and kill cancer cells or monitor and treat diabetes by dispensing insulin when needed.
Scientists have tried for years to build computers out of DNA (deoxyribonucleic acid), nature's chemical blueprint for life. But getting nano-sized pieces of DNA to act as electrical circuits capable of problem-solving like their silicon counterparts has remained a major challenge.
In a series of laboratory demonstrations over a two-year period, Macdonald and her associates showcased the computer's potential by engaging MAYA-II in a complete game of tic-tac-toe against human opponents, winning every time except in the rare event of a tie. Shown in the foreground of the picture above is a cell-culture plate containing pieces of DNA that code for possible "moves"; a display screen (background) shows that the computer (red squares) has won the game against its human opponent (blue).
Composed of more than 100 DNA circuits, MAYA-II is quadruple the size of its predecessor, MAYA-I, a similar DNA-based computer developed by the research team three-years ago. With limited moves, the first MAYA could only play an incomplete game of tic-tac-toe, the researcher says.
The experimental device looks nothing like today's high-tech gaming consoles. MAYA-II consists of nine cell-culture wells arranged in a pattern that resembles a tic-tac-toe grid. Each well contains a solution of DNA material that is coded with "red" or "green" fluorescent dye.
The computer always makes the first move by activating the center well. Instead of using buttons or joysticks, a human player makes a "move" by adding a DNA sequence corresponding to their move in the eight remaining wells. The well chosen for the move by the human player responds by fluorescing green, indicating a match to the player's DNA input. The move also triggers the computer to make a strategic counter-move in one of the remaining wells, which fluoresces red. The game play continues until the computer eventually wins, as it is pre-programmed to do, Macdonald says. Each move takes about 30 minutes, she says.
American Chemical Society
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Immune cells predict outcome of West Nile virus infection
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Surgical masks and N95 respirators provide similar protection against influenza
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La Jolla Institute announces 2.0 launch of major database to aid vaccine development worldwide
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OHSU scientists partner with others to form center aimed at combating infectious diseases
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Field stations foster serendipitous discoveries in environmental, biological sciences
North America's biological field stations have long been home to a rich legacy of research results, scientists say, making them important places for serendipitous discoveries in the biological and environmental sciences.
New wheat disease could spread faster than expected
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New test may help to ensure that dengue vaccines do no harm
As vaccines against a virus that infects 100 million people annually reach late-stage clinical trials this year, researchers have developed a test to better predict whether a given vaccine candidate should protect patients from the infection, or in some cases, make it more dangerous, according to an article just published in the journal Clinical and Vaccine Immunology.
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Recombitek West Nile 10 Dose (1 mL) by Recombitek Recombitek West Nile Virus Vaccine is recommended for the vaccination of healthy horses as an aid in the prevention of viremia due to West Nile Virus infection. This is Live Canarypox Vector vaccine. Reconstitute the lyophilized vaccine with accompanying liquid diluent and aseptically inject a 1ml dose by intramuscular route. For primary vaccination, revaccinate with a second 1 ml dose of this product 4 to 6 weeks later. Annual revaccination with a single dose is recommended. This contains 10 Doses: 10 x 1 Dose, Lyophilized 10 x 1 mL, Sterile Diluent Doseage: Reconstitute the lyophilized vaccine with accompanying liquid diluent and aseptically inject a 1 ml dose by intramuscular route. For primary vaccinate with a second 1 ml dose of this product 4 to 6 weeks later. Annual revaccination... |
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ThermaCELL Mosquito Repellent Refill Set 1 set by ThermaCELL Mosquito repellent refills. |
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FaceDoctorX Anti-Mosquito Soap, 100 g (3.35 oz) by Face Doctor The new way to stop mosquitoes from biting! Non-Toxic, No side effects, Contains 100% herbal extracts! The unique formula found in this soap was developed by Dr. Archibald of the Australian National Biological Laboratory. It contains 100% herbal extraction. Once you shower with this soap, it will repel mosquitoes from touching your skin. It will also relieve insect bites and itching if you did not use the soap offhand. Active Ingredients Function: Eucalyptus oil: Repel mosquitoes, relieve tired muscles. Citronella oil: mosquito repellent. Menthol: Insect and mosquito repellent, refreshes and revitalizes skin. Lavendula: Represses bacteria, diminishes inflammation. Calendula: Diminishes inflammation, relieves itching. Made in China. |
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