Bitten plants deploy gut-rotting enzyme. (Corn Defenses).Some corn varieties that arose on the Caribbean island of Antigua defend themselves with chemical attacks that leave insect gut linings in tatters tat·ter 1 n. 1. A torn and hanging piece of cloth; a shred. 2. tatters Torn and ragged clothing; rags. tr. & intr.v. . When armyworm armyworm, larva of a moth, Pseudaletia unipuncta, found in North America E of the Rocky Mts. When numerous, armyworms move in hordes, traveling by night and devouring grasses, young grains, and some leguminous crops. The full-grown larva is about 2 in. caterpillars make the mistake of chewing on some of this corn, they don't grow well, reaching only half the weight of counterparts that consume less gut-wrenching corn, says Dawn S. Luthe of Mississippi State University Mississippi State University, at Mississippi State, near Starkville; land-grant and state supported; coeducational; chartered 1878 as an agricultural and mechanical college, opened 1880. From 1932 to 1958 it was known as Mississippi State College. . Now, she and her colleagues propose at least one reason why. Corn plants under attack quickly accumulate a cysteine protease--a protein-slicing enzyme--surrounding the location where the caterpillars are chewing. In an upcoming Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. , the researchers report microscope observations of the sorry state of the innards of insects that had digested enzyme-laced corn tissue. "That's pretty novel," comments Clarence Ryan of Washington State University Washington State University, at Pullman; land-grant and state supported; chartered 1890, opened 1892 as an agriculture college. From 1905 to 1959 it was the State College of Washington. in Pullman, another specialist in built-in plant weaponry. Although chemical defenses are common in the plant world, Ryan says he hadn't heard of an enzyme of this particular class being deployed that way. Luthe explains that the toxins from Bacillus thuringiensis (Bt), now widely engineered into commercial crops, also attack insect guts. But Bt toxins do their damage differently. She says that the new enzyme doesn't knock out insects fast enough to substitute for Bt toxins. However, she speculates that combining the protease with other defenses could make a pesticide to which it would be hard for insects to develop resistance. Corn breeders have long known about the caterpillar-stunting power of the Antigua lineages. These plants don't express the enzyme in their kernels. A coauthor of the new paper, W. Paul Williams of a U.S. Department of Agriculture laboratory at Mississippi State, has used the corn in traditional, nontransgenic corn-breeding projects. To see what causes the stunting, Luthe, Williams, and their colleagues studied the chemicals released by the Antigua corn varieties when caterpillars start chewing on them. Other corn-defense chemicals typically show up in 8 hours, but the cysteine protease surges in about an hour and remains at high concentrations for at least a week. They identified the gene that encodes this enzyme and inserted it into another corn variety. They grew masses of the transgenic corn tissue, called callus callus: see corns and calluses. callus In botany, soft tissue that forms over a wounded or cut plant surface, leading to healing. A callus arises from cells of the cambium. , which they then fed to armyworm caterpillars. Under a scanning electron microscope scan·ning electron microscope n. Abbr. SEM An electron microscope that forms a three-dimensional image on a cathode-ray tube by moving a beam of focused electrons across an object and reading both the electrons scattered by the object and , the guts of caterpillars that ate enzyme-enhanced callus had many little rips. Innards of caterpillars that ate nontransgenic callus looked smooth. Another scientist who studies plants defenses, Gary Felton of Pennsylvania State University Pennsylvania State University, main campus at University Park, State College; land-grant and state supported; coeducational; chartered 1855, opened 1859 as Farmers' High School. in State College, calls the work "an elegant demonstration of this new mechanism." |
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