As the abundance of
genetically2 modified (GM) foods continues to grow, so does the demand for monitoring and labeling them. The
genes3 of GM plants used for food are
tweaked(扭,拧) to make them more healthful or pest-resistant, but some consumers are
wary4 of such changes. To help inform shoppers and enforce regulations, scientists are reporting in ACS' journal
Analytical5 Chemistry the first comprehensive method to detect
genetic1 modifications7 in one convenient, accurate test. Li-Tao Yang, Sheng-Ce Tao and colleagues note that by the end of 2012, farmers were growing GM crops on more than 420 million acres of land across 28 countries. That's 100 times more than when commercialization began in 1996. But doubts persist about the potential effects on the environment and human health of these biotech crops, created by changing the plants' genes to make them more healthful or more able to resist pests. In response, policymakers, particularly in Europe, have instituted regulations to monitor GM products. Although researchers have come up with many ways to detect genetic
modification6 in crops, no single test existed to do a comprehensive scan, which is where Yang and Tao come in.
They developed a test they call "MACRO," which stands for: multiplex
amplification8 on a chip with readout on an oligo microarray. It combines two well-known genetic methods to flag about 97 percent of the known commercialized modifications, almost twice as many as other tests. It also can be easily expanded to include future genetically modified crops.