Yeast behind velvety stout may have Silk Road origins

DNA analysis of substance used to brew stout shows origins are rooted in India

The study showed that yeast used to brew the perfect lager can also be pressed into service to produce excellent stout. Photograph: The Irish Times
The study showed that yeast used to brew the perfect lager can also be pressed into service to produce excellent stout. Photograph: The Irish Times

There is nothing more Irish than the pint of plain but a DNA analysis of the yeast used to brew stout shows its origins are actually in India.

The same study also showed that yeast used to brew the perfect lager can also be pressed into service to produce excellent stout.

A research effort to build a comprehensive family tree of yeasts is under way, involving researchers from Trinity College Dublin and University College Dublin.

Strains of yeast

It isn’t all about the beer. The team studied the DNA of 76 different strains of yeast taken from wineries, bakeries, distilleries and bioethanol plants.

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It even sampled naturally occurring yeasts in the wild.

There are two main groups of yeasts used to brew lager, and the researchers found that one of them shares DNA with the yeasts used to make stout.

But this DNA is also shared by a yeast strain used to brew “Toddy”, a speciality from southern India.

The research had "uncovered new links between stout, ale and lager yeasts", said Prof Ursula Bond, associate professor in microbiology at Trinity.

The shared links joining stout, lager and Toddy yeasts also hinted at a colonial exchange of yeast strains between India and these islands some time in the past, she added.

“There seems to be a link there. We are sequencing the genomes to see.”

The two lager yeast groups are relative newcomers, given they arose independently as hybrids, a fusion of one yeast strain with another.

These two separate fusion events happened about 500 years ago and produced the two yeast groups in common use today, said Prof Bond.

“The search has been on ever since to discover the parents that contributed to the genome of these species.”

Parent type

One of the parents of this fusion was found in 2011 – not in

Europe

as one might imagine but in two locations, Patagonia and

China

.

“At some time it must have found its way to Europe by the exploration of the New World or along the Silk Road from China. This was one of the important yeasts in the fusion events. Now we are looking to see what served as the other parent,” she said.

Dick Ahlstrom

Dick Ahlstrom

Dick Ahlstrom, a contributor to The Irish Times, is the newspaper's former Science Editor.