Study Could Lead to Tomato Plants with Stronger Defenses
Few things say summer like a home-grown tomato. But getting that red, juicy tomato challenges home gardeners and farmers alike, all of whom battle insects and diseases from the moment that young plants spring from the ground until the last tomato on the vine is picked.
Researchers in the plant-biology laboratory of Dr. Johannes Stratmann at the University of South Carolina are seeking to discover how tomato plants defend themselves against plant-eating insects, such as caterpillars, and microorganisms. Their discovery could help scientists develop new tomato varieties with stronger defense systems to battle the insects, bacteria, fungi and viruses that threaten and destroy crops.
鈥淭omatoes are frequently attacked by a number of enemies 鈥 insects and microbial pathogens alike. But they have a very effective and sophisticated defense system that has evolved over millions of years,鈥 said Stratmann, whose research team includes USC undergraduate biology students Wayne Miller of Greenville and Suchita Pancholi of Columbia.
鈥淲e are trying to understand these defense mechanisms at the molecular level,鈥 said Stratmann, whose studies are funded by the National Science Foundation.
鈥淥ur research could help other scientists develop new crop plants that are effective in battling insects and other stressors. But before we can develop better plants, we have to know how the plant works.鈥
Stratmann likens the workings of the tomato plant鈥檚 cellular defense system to a radio, where waves are perceived by the antenna and relayed to a transistor that amplifies the signal, producing sound.
鈥淲e see a similar situation in a cell,鈥 said Stratmann.鈥淲hen tomato plants are attacked and wounded by plant-eating insects, a small peptide (protein) called systemin is released at the wound site.鈥
At a target cell, the systemin interacts with a receptor, the equivalent of the radio antenna. The systemin signal is then amplified along a so-called 鈥渟ignal transduction pathway.鈥 Ultimately, defense genes are activated. These genes encode proteins that block digestive enzymes in the insects鈥 guts. This reduces the growth of the attacking insects, which begin to starve or move on to other plants.
Miller is looking at a protein that functions in the signal transduction pathway of systemin. To characterize the function of this protein, he engineered a harmless plant virus that turns off the gene that encodes the signaling protein. The assumption is that when the gene is turned off, the signal transduction should be interrupted and the defense response halted. This would prove that the protein is essential for the defense response.
鈥淭his technique is giving us an understanding of the signal pathways involved in the plant鈥檚 defense system,鈥 said Miller, a senior who wants to continue graduate studies in plant biology. 鈥淥ur work on signaling genes is proving to be successful.鈥
Pancholi, a South Carolina Honors College senior who hopes for a career in research or medicine, is working on another signaling protein, which is part of the systemin signaling pathway. She is studying how this protein responds to wound signals that are generated by insects at the wound site and travel to distant parts of the plant.
These signals are very fast, with a speed of up to one inch per second. It is thought that the signals prepare the entire plant for an attack by an insect.
Pancholi鈥檚 work with Stratmann will help provide clues for biotechnology on how to alter the signaling pathways in crop plants to make them more resistant to the stresses they encounter.
鈥淭his experience is a very important component of my education,鈥 she said. 鈥淵ou can鈥檛 conduct research without knowing the basic concepts of biology.鈥
Pancholi and Miller, recipients of USC鈥漵 Belser Award that recognizes outstanding students in plant biology, are working with Stratmann as part of USC鈥檚 Magellan Scholars Program, which enables undergraduate students to conduct research in the labs of the university鈥檚 top scientists.
Stratmann said it鈥檚 important for the university to provide research experiences for undergraduates.
鈥淭hese students are producing valuable results,鈥 he said. 鈥淭hey bring a fresh perspective to our research.鈥
Miller, whose work will be part of a paper being submitted for publication in a scientific journal, said, 鈥淚鈥檝e been able to apply what I鈥檝e learned in the classroom to my research. It has helped me to see the practical applications of what I鈥檓 learning.鈥
So, whether you grow your tomatoes or depend on local farmers to produce them for you, USC researchers are finding ways to make this red joy of summer even better.
Source: University of South Carolina
