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US: UF/IFAS scientists discover tomato flavor enhancement enzyme

The enzyme CXE1 will never be a household name, but a new University of Florida study suggests that tomato lovers owe it a debt of thanks nonetheless — without it, their favorite fruit might not be so tasty.

In a study published this week by Proceedings of the National Academy of Sciences, researchers with UF’s Institute of Food and Agricultural Sciences announced their discovery of the enzyme and showed how the common tomato plant generates large amounts of it as the fruit ripens.

Chemical reactions triggered by CXE1 improve the fruit’s flavor profile by reducing the presence of acetate esters, volatile chemicals commonly associated with plant defense and plant-to-plant communication, said molecular biologist Harry Klee, an eminent scholar with UF’s horticultural sciences department.

“We do believe this phenomenon makes the fruit more palatable,” Klee said.

Previous UF/IFAS tomato research has shown that consumers do not like the contributions that acetate esters make to tomato flavor. Many of them are pleasant in isolation — for example, butyl acetate has a sweet, banana-like odor — but don’t match consumers’ ideas of good tomato taste, he said.

Klee and his colleagues are involved in a long-term effort to uncover genes and biochemical pathways responsible for producing the volatile chemicals that give fresh tomatoes their characteristic flavor and aroma.

Ultimately, they hope to show that great taste is dependent on just a handful of compounds in the right proportions. Breeders can use the information to guide their efforts to develop improved varieties.

The team discovered CXE1 and four similar enzymes while analyzing tomato genes that appeared to play a role in establishing the acetate ester content of tomato fruit.

To better understand the role CXE1 plays in tomato flavor, the researchers investigated what would happen without it.

They engineered tomato plants that produced very little of the enzyme. The fruit from those plants contained higher-than-normal levels of acetate esters.

The team also analyzed Solanum pennellii and Solanum habrochaites, relatives of the tomato plant that produce green-skinned fruits unpalatable to people and seldom eaten by animals. The fruits contained large amounts of acetate esters, compared with tomato fruit. Furthermore, analysis showed that those plants produced little CXE1.

In laboratory tests, CXE1 inhibited the activity of numerous acetate esters, though the enzyme was more active against some than others.

It’s possible, Klee said, that high CXE1 production in tomato plants is a trait that evolved in tandem with red-skinned fruit, providing a survival advantage. Perhaps the red color drew attention from animals and the pleasant taste inspired them to eat the fruit, leading to seed dispersal that established the plant in new areas.

Though this study may shed light on the tomato’s distant past, Klee is much more interested in its future.

“Because acetate esters are negatively correlated with consumer liking, we want to find ways to get rid of them,” he said. “I always tell people there are probably five or 10 chemicals we need to optimize to achieve an ideal flavor balance in tomato, and I think CXE1 is probably part of that group.”

Besides Klee, the research team included Charles Goulet, Melissa Mageroy, Nghi Lam, Abbye Floystad and Denise Tieman, all with UF’s horticultural sciences department.

For more information:
Tom Nordlie
[email protected]

or

Harry Klee
[email protected]

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