“Fit-for-purpose” yeast from the AWRI

The Australian Wine Research Institute (AWRI) has created a quick-read summary page on their ongoing project to develop “fit-for-purpose” yeast: yeast strains designed to facilitate specific flavor profiles for specific applications. They’ve already developed and released (through AB Mauri and Anchor) several strains including two interspecies hybrids — Saccharomyces cerevisiae crossed with S. kudriavzevii or S. cariocanus — and low H2S-producing strains. More are being tested in Shiraz and are likely to emerge over the next 3-5 years. The AWRI is making a point that this research is Aussie-focused — their argument is that similar work being done elsewhere is creating yeasts not necessarily suitable for Australian wine styles — but no doubt their results will end up helping non Australian-industry levy payers, too. It’s worth noting that their development strategies rely on good old traditional genetics strategies and not genetic engineering. They’re not inserting genes from other species into yeast; they’re breeding different yeasts together, encouraging yeast to mutate (that is, spawning lots of random changes in their DNA with chemicals and stress) and looking for useful mutations, and using contemporary genetics to understand which genes do what. For a quick explanation of why I’m glad that they’re sticking with traditional genetics strategies instead of creating GMO yeast, check here.

Whether you’re excited about the prospect of using tailor-made yeast to target particular flavors or whether you’re in the don’t-inoculate-my-wine camp and hold that fermenting with yeast from the environment is the only or best way to terroir-full wines, it’s hard to argue that knowing more about yeast is a bad thing. Developing new commercial products may be an increasingly major research driver as scientists need to look for support from private sources. Furthermore, ending up with a new product you can hand to someone is a tangible way of saying, “Here, look; our research really is applicable and relevant to real-life winemaking!” Regardless, projects like these continue to provide an umbrella for basic research on yeast genetics and wine flavor development. And maybe not tomorrow, and maybe not next year, but in the long run, that’s something that ends up helping everyone.

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Hooray for Oregon: two counties vote for no GMOs

Oregon’s Josephine and Jackson counties have both, at least per the preliminary counts (official ones will take weeks), voted in favor of banning the planting of GMO crops inside their borders. Find accounts of the highly contested ballot measures at Oregon Live and The NationCommercial GMO wine grapes aren’t yet available, but it’s likely they will be soon with research in that direction underway in Florida and France. GMO wine yeast are already for sale — ML01, which has the bacterial genes for malolactic fermentation — though whether the ban applies to its use, since the yeast aren’t a crop per se, is a question.

Plenty of pro-GMO publicity relies on the lack of scientific proof that GMO foods are in any way harmful to eat or nutritionally inferior. That’s true, but it’s also not the point. In my opinion, the strongest reasons to oppose GMOs are:

Biodiversity – GMOs are usually designed to be more disease-resistant, more vigorous, and/or higher-yielding than non-engineered varieties, which means that they have a competitive advantage in the wild. With yeast and bacteria, or if GMO plants make it out into the wild, that means that they’ll out-compete native varieties, which means that we lose biodiversity. Biodiversity is good. Natives and rare variants among natives may harbor as yet-undiscovered genetic and biochemical solutions to diseases or bioengineering problems. Diversity makes systems more resilient to disease and changing environments. And there’s the aesthetic argument: life is beautiful in its many shapes and colors.

Food security and sustainability (the biology side) – At least 70% of the US corn crop is Monsanto “Roundup Ready,” and something like 90% of the soybean crop. What if a disease struck to which Roundup Ready X was specially susceptible? Bacteria and viruses mutate to adapt to their hosts; this isn’t that unlikely. Not only do we need farmers growing a diversity of varieties, but we need to ensure that in the case of wind-pollinated crops (like corn) hypercompetitive genes don’t spread to infiltrate even non-engineered crops.

Food security and sustainability (the economic side) – GMO crops are patented. Growers can’t legally save their seed from one year to replant the next; they’re obligated to pay the giant corporation to provide their next crop and set of paychecks. Monsanto has aggressively defended this “right.”  I understand that the economics here are complex, but I can’t see a way to slice this argument that doesn’t come down to feeding mega-business, collecting power and money in the hands of the few who are already powerful and wealthy, protecting and encouraging increased commodification and commercialization and engineering of our food supply, and hurting everyone who A) isn’t a corporate billionaire and B) eats. And if all of that is a bit much, just imagine being the family farmer who gets sued by Monsanto. The layers of anti-sustainability, anti-farmer, pro-big business unprintable evil this represents are too many to explore in full here, particularly because I may need to go out and chop some wood now just to burn off the anger I feel thinking about this nonsense.

All of that is in addition to the possibility that GMO crops may pose some danger to human or animal health, both of which are still untested possibilities insofar as we haven’t been studying them long enough for a full assessment.

The Josephine and Jackson measures still need to be put into effect and enforced, neither of which are yet certain bets. But the vote is a definite step in the right direction and, more importantly, sets a precedent for other counties in other states. More reasons why, along with some very fine pinot noir, I’m proud to be an Oregonian.