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News Release

Accent photo

More reasons to eat your broccoli

Source: Jack Juvik, 217- 333-1966, juvik@illinois.edu

News writer: Lauren Quinn, 217-300-2435, ldquinn@illinois.edu

 

  • Broccoli and related vegetables in the Brassica family are loaded with health-promoting compounds known as phenolics.
  • Researchers have identified a large number of candidate genes controlling phenolic compound accumulation in broccoli.
  • These genes will be used in future breeding programs to pack even more phenolic compounds into broccoli and other Brassica vegetables.

 

URBANA, Ill. – Love it or hate it, broccoli is touted as a superfood, offering an array of health benefits. And it’s about to get even more super.

University of Illinois researchers have identified candidate genes controlling the accumulation of phenolic compounds in broccoli. Consumption of phenolic compounds, including certain flavonoids, is associated with a lower risk of coronary heart disease, type II diabetes, asthma, and several types of cancer.

“Phenolic compounds have good antioxidant activity, and there is increasing evidence that this antioxidant activity affects biochemical pathways affiliated with inflammation in mammals. We need inflammation because it’s a response to disease or damage, but it’s also associated with initiation of a number of degenerative diseases. People whose diets consist of a certain level of these compounds will have a lesser risk of contracting these diseases,” explains U of I geneticist Jack Juvik.

The researchers crossed two broccoli lines and tested their progeny in terms of total phenolic content and their ability to neutralize oxygen radicals in cellular assays. They then used a genetic technique called quantitative trait locus analysis to search for the genes involved in generating phenolics in the most promising progeny.

By identifying the genes involved in accumulating these compounds, the researchers are one step closer to breeding broccoli and related Brassica vegetables like kale and cabbage with mega-doses of phenolic compounds.

“It’s going to take awhile,” Juvik notes. “This work is a step in that direction, but is not the final answer. We plan to take the candidate genes we identified here and use them in a breeding program to improve the health benefits of these vegetables. Meanwhile, we’ll have to make sure yield, appearance, and taste are maintained as well.”

The good news is that phenolic compounds are flavorless and stable, meaning the vegetables can be cooked without losing health-promoting qualities.

Once these vegetables are consumed, the phenolic compounds are absorbed and targeted to certain areas of the body or concentrated in the liver. Flavonoids spread through the bloodstream, reducing inflammation through their antioxidant activity.

“These are things we can’t make ourselves, so we have to get them from our diets,” Juvik says. “The compounds don’t stick around forever, so we need to eat broccoli or some other Brassica vegetable every three or four days to lower the risk of cancers and other degenerative diseases.”

The article, “QTL analysis for the identification of candidate genes controlling phenolic compound accumulation in broccoli (Brassica oleracea L. var. italica),” is published in Molecular Breeding. Lead author Alicia Gardner and Juvik are at the University of Illinois. Co-author Allan Brown is at the International Institute of Tropical Agriculture in Tanzania. The research was supported by a grant from the Hatch Multistate Project.

The article can be accessed online at http://link.springer.com/article/10.1007/s11032-016-0497-4.

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Local Contact: Lisa Peterson, Extension Educator, Nutrition and Wellness, lap5981@illinois.edu