Device eliminates wait for DNA results.Crime investigators want forensic tests to be fast and accurate. Unfortunately, such tests are often slow and prone to error. Whenever a person intervenes in the procedure, opportunities for mistakes increase. Now, researchers have designed a machine that performs a standard DNA test on blood samples from start to finish--without human intervention. Nanyan Zhang, Hongdong Tan, and Edward S. Yeung at the Department of Energy's Ames (Iowa) Laboratory and Iowa State University Academics ISU is best known for its degree programs in science, engineering, and agriculture. ISU is also home of the world's first electronic digital computing device, the Atanasoff–Berry Computer. in Ames describe their prototypical device in the March 15 Analytical Chemistry. It can work on blood samples as small as 1 microliter microliter /mi·cro·li·ter/ (µL) (mi´kro-le?ter) one millionth (10-6) of a liter. mi·cro·li·ter n. A unit of volume equal to one-millionth (10-6) of a liter. . Traditional DNA analysis DNA analysis Any technique used to analyze genes and DNA. See Chromosome walking, DNA fingerprinting, Footprinting, In situ hybridization, Jeffries' probe, Jumping libraries, PCR, RFLP analysis, Southern blot hybridization. can match bloodstains found at a crime scene, but getting results from a lab usually takes 4 to 6 weeks. The new system "would give you enough information to rule in or rule out certain people in about 2 1/2 hours," says Yeung. Existing technology also permits automation of certain steps of the process, says Yeung, but a person still must transfer samples between the steps. That increases the chance of contamination and other mishaps. The prototype carries out a sequence of several operations automatically on tiny blood samples. Each sample travels through a long, thin capillary tube. In the first section, a brew of chemicals breaks open the blood cells blood cells, n.pl the formed elements of the blood, including red cells (erythrocytes), white cells (leukocytes), and platelets (thrombocytes). blood cells See erythrocyte and leukocyte. Platelets are classed separately. . The chemicals amplify the minuscule amount of DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. to a measurable quantity via a process called the polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is , or PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) (SN: 10/23/93, p. 262). The second section of the tube separates the amplified DNA fragments. The pieces of DNA are then identified by beaming a laser at them and detecting their fluorescence. In order to use PCR on whole blood, rather than on isolated DNA, Yeung and his coworkers had to modify the standard procedure. "Blood is one of the worst materials because it contains a lot of proteins, and proteins affect the enzymatic reactions in PCR," he explains. The Ames group, therefore, chose enzymes that work in the presence of various blood proteins. The researchers' prototype analyzes and compares 8 DNA samples simultaneously, although it could easily handle 100 without major changes in design, Yeung says. Many companies are developing miniature chemistry labs on microchips so that forensic-and environmental-test devices can be portable (SN: 8/15/98, p. 104). Unlike these other miniaturized instruments, the Iowa system "does a lot of samples in parallel. That's what's unique about it," says Steven A. Soper of Louisiana CODE, OF LOUISIANA. In 1822, Peter Derbigny, Edward Livingston, and Moreau Lislet, were selected by the legislature to revise and amend the civil code, and to add to it such laws still in force as were not included therein. State University in Baton Rouge. In a clinical setting, the Iowa device could screen many blood samples for disease-causing genes, reducing delays and cost, adds Soper. Though not as small as a lab-on-a-chip, the Ames group's prototype could fit in the back of a van, says Yeung. Taken to a crime scene, the machine could examine evidence on the spot. |
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