不良研究所

Botrytis 鈥榥oble rot鈥 fungus reprograms wine grape metabolism

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Cluster of white grapes turning to pink and purple
This cluster of naturally white-skinned grapes shows initial symptoms of "noble rot" infection, as the white grape berries turn pink.

For hundreds of years, the fungus Botrytis cinerea has been key to making the world鈥檚 finest dessert wines. Now 不良研究所 researchers working with Dolce Winery in the Napa Valley show how the fungus changes plant metabolism to produce new flavors and aromas in white-skinned grapes.

Under moderately moist conditions, the fungus produces the benign 鈥渘oble rot,鈥 ideal for making particular high-value dessert wines, known as 鈥渂otrytized wines鈥 or Sauternes. But when moist conditions prevail in the vineyard, Botrytis spawns noble rot鈥檚 evil twin, the so-called 鈥渂unch rot.鈥 Bunch rot is a destructive disease that inflicts severe crop losses in all grape-growing regions worldwide.

The 不良研究所 team found that during noble rot infection, Botrytis induces metabolic processes in white grape berries normally seen only during the ripening of red-skinned grapes. This was a novel observation, because white berries are, in fact, developmental mutants that cannot activate several ripening pathways such as the synthesis of anthocyanins, the molecules that impart the red color in the skin of red grape berries.

The research also confirmed that the reprogramming of grape metabolism by Botrytis results in the accumulation of key aroma and flavor compounds that make sweet wines made from botrytized grapes so special.

Findings from the new study appear this week in the journal at .

鈥淭his study demonstrates how effective it is to integrate genomics and metabolomics in analyzing the impact of plant-microbe interactions on plant metabolism under field conditions,鈥 said plant biologist Dario Cantu of the 不良研究所 Department of Viticulture and Enology.

The work also  may lead to new approaches to improving quality traits in grapes and other fruit, said Cantu, who led the study along with postdoctoral researcher Barbara Blanco-Ulate.

Botrytis has long history in winemaking

Winemakers have made use of the beneficial impacts of Botrytis cinerea 鈥 in the form of noble rot 鈥 since the 1500s. For example, white-skinned grape berries, naturally infected with noble rot, have been used to produce some of the world鈥檚 highest quality dessert wines, referred to as botrytized wines. These wines were first produced in specific regions of Hungary, Germany and France, but now are also made in Italy, Australia, New Zealand, South Africa and California. Botrytized wines are valued for their natural sweetness and distinctive flavor and aroma profiles, which include raisin, pineapple, apricot, pear and honey features.

Systems biology explains how grape berries change during noble rot

In the newly published study, the researchers collected berries of a white-skinned grape variety called S茅millon over three years at the same time the grapes were being harvested for winemaking. They then used state-of-the-art RNA sequencing and metabolomics approaches, as well as enzymatic assays, on those grapes to demonstrate that noble rot:

  • induces grape stress responses involved in generating aroma and flavor metabolites; and
  • triggers regulators of metabolic pathways that are typically associated with red-skinned grape berry ripening.

The researchers also profiled the metabolites of commercial botrytized wines produced from the same vineyard where the grape berries were collected and verified that key compounds that result from noble rot are carried over to the wines.

Working with Cantu and Blanco-Ulate on this study were professors Susan Ebeler and Hildegarde Heymann, both of the 不良研究所 Department of Viticulture and Enology; Thomas Collins, currently an assistant professor at Washington State University; Greg Allen, winemaker at Dolce Winery; and Rosa M. Rivero of CEBAS-CSIC research institute in Spain. Other members of the research team were Katherine Amrine, Abraham Morales-Cruz, Carolyn Doyle and Zirou Ye, all of 不良研究所; and Ariel Vicente of CONICET, the National Scientific and Technical Research Council of Argentina.

Funding was provided by the 不良研究所 College of Agricultural and Environmental Sciences, and instrumentation support was provided by Agilent Technologies. 

Media Resources

Pat Bailey, Research news (emphasis: agricultural and nutritional sciences, and veterinary medicine), 530-219-9640, pjbailey@ucdavis.edu

Dario Cantu, Viticulture and Enology, 530-752-2929, dacantu@ucdavis.edu

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