Greetings!
The patent on conversion of ibotenic acid to muscimol suggests best result is achieved with treating the mushroom water extract (tea) with GAD (glutamate decarboxylase) enzymes. It further explains that many of the commonly used Lactobacillus species (such as L. plantarum, L. paracasei, L. lactis, L. brevei, L. delbrueckii, ...) actually produce these enzymes in fermentation.
So the question is --> Did any member of the given forum try to ferment their Amanita muscaria/pantherina tea with LB ? If yes, what was the result achieved, what was the experience like ? Do you think judging by effects that there was a good conversion rate of IBO to MUS ?
Also --> I will conduct the experiment myself. I still have some dry and powdered A. muscaria caps. I'll make some tea with the powder, filter and decant, add table sugar (sucrose) to it as food for the LB and then add a culture to start the fermentation. I'll take the LB from sauerkraut. According to a quick google search sauerkraut should contain the correct LB species to make a good conversion. I intend to ferment at room temperature for a few days and observe the process.
If there are any ideas you would like to contribute or if I had left out anything important, please remind me so I can add or correct.
If any member would like to join in with the experiment, it would be very interesting to compare the results and have a little discussion in the forum.
Quote:In yet another alternative embodiment, the filtrate is combined with one or more Lactobacillus bacteria Such as L. plantarum, L. paracasei, L. lactis, L. brevei, L. delbrueckii, or any other fermenting bacteria containing glutamate decarboxylase, or a Substance containing glutamate decarboxylase, Such as rice bran. Thereafter, according to certain embodiments, the filtrate is optionally fermented with the bacteria. According to certain embodiments, the fermented product is
filtered and clarified with or without pasteurization. According to at least one embodiment, the fermented product is filtered and clarified through cotton or other filtration material, and/or filtered through an activated carbon filter.
Quote:According to certain embodiments, the filtrate is combined with one or more Lactobacillus bacteria Such as L. plantarum, L. paracasei, L. lactis, L. brevei, L. delbrueckii, or any other bacteria known to contain glutamate decarboxylase (โGAD'
. Thereafter, the filtrate and approximately 150,000 colony forming units (CFUโs) of the bacteria per ounce of filtrate are optionally adjusted to a pH of 3.8-5.5 and incubated at a temperature of approximately 98°-155° F.
Quote:According to certain embodiments, approximately 0.4 g of CaCO or CaCl per 64 ounces of filtrate is added, along with a prescribed amount of P-5-P as a cofactor (typically 10 mg), and approximately 4.5 teaspoons of table Sugar. Initial pH of the combination of the filtrate and bacteria is approximately 6, and typically drops rapidly within 12 to 24 hours of fermentation to just under a pH of 4. After approximately 3 days of fermentation, the product is filtered, refrigerated, and clarified. The fermented, filtered product is thereafter available for use.
Quote:Bioassays of the resultant product show acceptable taste, mouthfeel, and appearance, and may be mixed with fruit juice. The resultant product did not display the undesirable effects noted in fresh A. muscaria tissue.