UW SCIENTISTS CREATE LINES LOW IN ACRYLAMIDE

Published online: Jun 21, 2011 Potato Storage
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University of Wisconsin-Madison plant geneticist Jiming Jiang, a professor of horticulture, has a possible solution for acrylamide, a potential carcinogen.
 
As described in the current issue of Crop Science, Jiang's lab has developed a promising new kind of potato that helps cut acrylamide, an innovation he created with support from USDA-ARS plant physiologist Paul Bethke, an assistant professor of horticulture. As a bonus, those potatoes also could help producers significantly reduce food waste.

The problem starts with storage. Because fry and chip processors need potatoes year round, most of the fall harvest goes into storage, where low temperatures can cause cold-induced sweetening. During cooking, those sugars react with free amino acids to produce acrylamide. The same reaction also causes fries and chips to turn dark brown during processing, making them unsalable.

Jiang's solution is to insert a small segment of a potato's own DNA back into its genome. The extra DNA helps block a single gene-the vacuolar acid invertase gene, which codes for an enzyme-that's responsible for converting sucrose into glucose and fructose, the sugar culprits that cause both acrylamide formation and browning. Through this process Jiang has created a number of potato lines that produce very little acrylamide when cooked.

"Regular potato chips can have acrylamide levels up around 1,000 parts per billion," says Jiang. "Ours are down around 200." Jiang's process, potentially of enormous use to the food industry, is now being patented by the Wisconsin Alumni Research Foundation.

But because they are genetically modified (GM), Jiang's potatoes can't be grown for consumption in the United States, where only a handful of GM crops have been approved and widely cultivated.

Jiang hopes that will change and notes that GM versions of corn and soybeans, which are now added to many processed food items, contain DNA from other species. The extra DNA in his low-acrylamide potatoes, on the other hand, comes from the potato genome itself.

Down the line, especially if scientists confirm acrylamide's link to human cancer, consumers may have to make an interesting choice: accept a new genetically modified crop or cut back on fries and chips.

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