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Thank fungi for cheese, wine and beer this holiday season

by Richard Surek / Thursday, 28 November 2019 / Published in Dane County Real Estate News

It’s hard to imagine a holiday table without bread, meat, vegetables, wine, beer or a board of French cheeses for those with more adventurous palates. Savoring these delicacies with family and friends is part of what makes the holidays so much fun.

These foods and drinks are courtesy of the domestication of several different animals, plants and microbes. Plant and animal domestication has been well studied, since it is thought to have been the most momentous change in recent human history.

Scientists know much less about the domestication of microbes, however, and as a result, society fails to appreciate their pivotal contributions to the foods and drinks that we enjoy all year long.

Curious too? Recent studies shed light on these questions, so grab some Camembert cheese and a beer, and keep on reading.

Thank the large variety of microbes, including fungi, for this assortment of international cheeses. Umomos/Shutterstock.com

The hybrids in your lager

As far as domestication is concerned, it is hard to top the honing of brewer’s yeast. The cornerstone of the baking, brewing and wine-making industries, brewer’s yeast has the remarkable ability to turn the sugars of plant fruits and grains into alcohol. How did brewer’s yeast evolve this flexibility?

By discovering new yeast species and sequencing their genomes, scientists know that some yeasts used in brewing are hybrids; that is, they’re descendants of ancient mating unions of individuals from two different yeast species. Hybrids tend to resemble both parental species – think of wholpins (whale-dolphin) or ligers (lion-tiger).

Cells of the mighty brewer’s yeast, the cornerstone of the baking, brewing and wine making industries. wikipedia

For example, lager beer yeasts are hybrids of two closely related species: the brewer’s yeast Saccharomyces cerevisiae and Saccharomyces eubayanus. Saccharomyces cerevisiae produces tasty beers, such as the British ales, but grows better at warmer temperatures. In contrast, Saccharomyces eubayanus grows better in the cold but produces compounds that taint the beer’s flavor. Lager yeast hybrids combine the best of both – good flavors from Saccharomyces cerevisiae and growth at colder temperatures, thanks to Saccharomyces eubayanus. This makes these hybrids great for brewing beer in the cold winters of Europe, where lagers were invented.

The mutants in your cheese

Comparing the genomes of domesticated fungi to their wild relatives helps scientists understand the genetic changes that gave rise to some favorite foods and drinks. But how did our ancestors actually domesticate these wild fungi? None of us was there to witness how it all started. To solve this mystery, scientists are experimenting with wild fungi to see if they can evolve into organisms resembling those that we use to make our food today.

The wild fungi are very closely related to fungal strains used by the cheese industry in the making of Camembert cheese, but look very different from them. For example, wild strains are green and smell, well, moldy compared to the white and odorless industrial strains.

Colonies of Penicillium mold isolated from a blue cheese. The white colony is a domesticated version of the wild mold. Benjamin Wolfe, CC BY-SA

For Wolfe, the big question was whether he could experimentally recreate, and to what degree, the process of domestication. What did the wild strains look and smell like after a month of growth on cheese? Remarkably, what he and his team found was that, at the end of the experiment, the wild strains looked much more similar to known industrial strains than to their wild ancestor. For example, they were white in color and smelled much less moldy.

Fungi spend a lot of energy producing pigments and pungent compounds that enable them to compete and defend themselves. Living comfortably on a diet of cheese and safe from predators means that losing the ability to produce, say, pigments may actually be advantageous. That’s because the energy saved can instead be spent toward growth of the fungal colony.

But how did the wild strain turn into a domesticated version? Did it mutate? By sequencing the genomes of both the wild ancestors and the domesticated descendants, and measuring the activity of the genes while growing on cheese, Wolfe’s team figured out that these changes did not happen through mutations in the organisms’ genomes. Rather, they most likely occurred through chemical alterations that modify the activity of specific genes but don’t actually change the genetic code. Such so-called epigenetic modifications can occur much faster than mutations. The path toward domestication appears to be quicker than previously thought, which will perhaps encourage adventurous cheese makers to begin experimenting with domesticating wild fungi for new flavors.

While you savor your favorite foods and beverages this holiday season, spare a thought for these microscopic fungi, how they evolved their mighty powers and how much more bland our world would be without them.

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