US20150305249A1 - Nutritionally and botanically enhanced mycelial mass - Google Patents
Nutritionally and botanically enhanced mycelial mass Download PDFInfo
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- US20150305249A1 US20150305249A1 US14/680,269 US201514680269A US2015305249A1 US 20150305249 A1 US20150305249 A1 US 20150305249A1 US 201514680269 A US201514680269 A US 201514680269A US 2015305249 A1 US2015305249 A1 US 2015305249A1
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01H—NEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
- A01H15/00—Fungi; Lichens
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- A01G1/04—
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- A01G1/001—
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G18/00—Cultivation of mushrooms
- A01G18/20—Culture media, e.g. compost
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N1/00—Microorganisms, e.g. protozoa; Compositions thereof; Processes of propagating, maintaining or preserving microorganisms or compositions thereof; Processes of preparing or isolating a composition containing a microorganism; Culture media therefor
- C12N1/14—Fungi; Culture media therefor
Definitions
- Traditional growth media for edible or medicinal mushrooms has conventionally included a variety of substrates, including but not limited to wood chips, sawdust, mulched straw (typically of wheat or rice); brewer's grain, stockyard, horse or poultry manure, ground corncobs, paper, coffee grounds, nut-, seed- and cocoa-bean-hulls, soybean, cottonseed or rice meal, or other generally chitinous substrates.
- substrates including but not limited to wood chips, sawdust, mulched straw (typically of wheat or rice); brewer's grain, stockyard, horse or poultry manure, ground corncobs, paper, coffee grounds, nut-, seed- and cocoa-bean-hulls, soybean, cottonseed or rice meal, or other generally chitinous substrates.
- One of the present inventors has previously grown mushrooms on particularly specified media, such as purple corn, to facilitate the uptake of desired nutrients in the mushroom end product.
- particularly specified media such as purple corn
- the present invention is an innovative method of growing certain strains of mushrooms on newly specified media to create heretofore unattainable robust biomass having desired nutritional and pharmaceutical (nutraceutical) profiles.
- the fungi grown according to the invention are selected from the group consisting of: Ganoderma lucidum; Ganoderma japonicum; Ganoderma applanatum; Ganoderma Tsugae; Lentinula edodes; Grifola frondosus; Tremella fuciformia; Tremella mesenterica; Cordyceps sinensis; Cordyceps militaris; Hericium erinaceus; Polyporous umbellatus; Scizophylum commune; Fomes fomentaris; Inonotuus obliquus; Lepiota procera; Auricularia auricula; Tuber melanosporum; Tricholoma matsutake; Hericium coralloides; Trametes versicolor; Phellinus l
- these fungus varieties are grown on media selected from the group consisting of (or preponderantly containing one or more of) Black rice; Ashwaghandha; Cacao nibs; Black Chia seed; Flax seed; Black Quinoa; Black Sesame; Hemp Seed; Cannabis Sativa/Indica —flowers/leaves; Sunflower seeds; Pumpkin seeds; Spirulina; Lemon Peel; chili Pepper; Kelp; Alfalfa leaf; Watercress; Cilantro; Sage; Thyme; Parsley; Broccoli Seed; Mate; green Coffee Beans; Roasted Coffee Beans; Green Tea; Rhodiola; Siberian Ginseng; Sea Buckthorn Berry; Black Soy Bean; Olive leaf; Cabbage; Milk Thistle seed; Milk Thistle leaf; Turmeric; Bupleurum; Artichoke leaf; Dandelion leaf; Dandelion root; Hibiscus flower; Ginkgo leaf; Bacopa; Periwinkle; Fava Bean; Peppermint; Hawthorn Berry;
- the present invention comprises growing certain edible or medicinal mushrooms on specialized substrates (media) in the nature of HERBS, SPICES, FRUITS, VEGETABLES, ALGAE, GRAINS AND SEEDS.
- the present invention is an innovative method of growing certain strains of mushrooms on newly specialized media to create heretofore unattainable robust biomass having desired nutritional and pharmaceutical (nutraceutical) composition.
- the fungi grown according to the invention are selected from the group consisting of: Ganoderma lucidum; Ganoderma japonicum; Ganoderma applanatum; Ganoderma Tsugae; Lentinula edodes; Grifola frondosus; Tremella fuciformia; Tremella mesenterica; Cordyceps sinensis; Cordyceps militaris; Hericium erinaceus; Polyporous umbellatus; Scizophylum commune; Fomes fomentaris; Inonotuus obliquus; Lepiota procera; Auricularia auricula; Tuber melanosporum; Tricholoma matsutake; Hericium coralloides; Trametes versicolor; Phellinus linteus; Poria cocos; Antrodia camphorate; Flammulina velutipes; Pleurotus ostreatus; Pleurotus energyii; and Ag
- these fungi varieties are grown on media selected from the group consisting of (or preponderantly containing one or more of) Black rice; Ashwaghandha; Cacao nibs; Black Chia seed; Flax seed; Black Quinoa; Black Sesame; Hemp Seed; Cannabis Sativa/Indica —flowers/leaves; Sunflower seeds; Pumpkin seeds; Spirulina; Lemon Peel; chili Pepper; Kelp; Alfalfa leaf; Watercress; Cilantro; Sage; Thyme; Parsley; Broccoli Seed; Mate; green Coffee Beans; Roasted Coffee Beans; Green Tea; Rhodiola; Siberian Ginseng; Sea Buckthorn Berry; Black Soy Bean; Olive leaf; Cabbage; Milk Thistle seed; Milk Thistle leaf; Turmeric; Bupleurum; Artichoke leaf; Dandelion leaf; Dandelion root; Hibiscus flower; Ginkgo leaf; Bacopa; Periwinkle; Fava Bean; Peppermint; Hawthorn Berry;
- Certified organic biologically active nutraceutical raw material compounds are produced by inoculating herbs, spices, fruits, teas, vegetables, algae, grains, seeds and dairy products with a range of cultures of functional fungi species' (symbiotic transformation system).
- the living cultures pre-digest the foods and herbs transforming and potentiating these ingredients. Grains and seeds are sprouted/germinated prior to inoculation.
- the STS Synmbiotic Transformation System
- a unique lipid delivery system is contained within each formulation. Products created using the STS can be vegetarian/vegan friendly.
- Raw materials derived from this process are truly whole, truly live.
- the culture is never killed/terminated with enzymes or heat, that is, materials are truly raw, and dried only below 118 degrees F.
- These nutrient rich raw materials are grown using organic juices, milks and purees in addition to the base media.
- specific music is played providing frequency generating vibrations to impart energy into the finished products.
- the STS process creates whole foods rich in vitamins, amino acids, trace minerals, polysaccharides, Beta Glucans, Alpha Glucans, Proteoglycans, Antioxidants, Enzymes, Pectins, Ribonucleases, Ubiquitin like proteins, Arabinoxylines, coenzymes and chelated mineral activators may be added and greatly enhance the bioavailability of beneficial compounds taken up from the specified media.
- the present media may be supplemented with liquid additions as follows.
- ORGANIC JUICES, MILKS, PUREES USED IN THIS INVENTION are listed below but not limited to: Organic Carrot Juice Concentrate; Organic Concord Grape Juice; Organic pomegranate Juice Concentrate; Organic Ginger Juice; Organic Blueberry Puree; Organic Acai Puree; Organic Plum Puree; Organic raspberry Puree; Organic Tomato Puree; Organic Cranberry Juice; Organic Goat Milk; Organic Heavy Cream; Organic Coconut Cream; Organic Coconut Water; Organic Cherry Juice; Organic Green Tea; Organic Apple Juice; Organic Vegetable Juice; Organic Pineapple Juice; Organic Aloe Juice; Organic cold brewed coffee; Organic Almond Milk; Organic Chicken Broth; Organic Vegetable Broth or Organic Roasted Coffee.
- a fungal species is grown and fermented, both, with all of a grain (or seed), an herb and a juice, to give optimal medicinal and nutritional profiles to the resulting fungi.
- the inventors have determined that the co-fermentation of a juice, a seed (grain) and an herb, together with the fungi growth, distinctly enhances the mushroom composition compared to mushrooms grown on traditional inert media. Indeed—except for the applicant's prior patented “purple corn” mushroom growth medium (U.S. Pat. No. 7,178,285 entitled, “Functional substrates for growth of culinary and medicinal mushrooms”) the industry has emphasized stable, inert and largely nutritionally irrelevant growth media for mushrooms.
- Ophiocordyceps sinensis and Ophiocordyceps militaris are the most sensitive of all the species tested, and require a particular combination of relatively higher fat seeds (one or more of black chia, sunflower, pumpkin, hemp, sesame or brown flax) and lower sugar juices (aloe vera, celery, parsley, cucumber) with one or more herbs, to give the best growth and the best mushroom composition.
- Cordyceps sinensis is cultivated/grown on Cacao nibs to produce a nutritionally significant nutraceutical, confection ingredient and/or powder for protein and meal replacement products. Rapid and dense growth of mycelium during the cultivation/fermentation process is noted.
- a Ganoderma lucidum product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed, together with 75-80% (1000-1,100 g.
- the resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media.
- the resulting mushroom does not carry the taste of the herbs or juices; such a mushroom does not taste of mushroom or cabbage.
- the fermentation greatly enhances the nutritional constituents and growth speed of the mushroom culture.
- an Orphicordyceps sinensis or Orphiocordyceps militaris product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed BUT emphasize the higher fat/lower starch ones, namely, black chia seed, sunflower seed, pumpkin seed, hemp seed, sesame seed and brown flax seed, together with 75-80% (1000-1,100 g.
- the resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media.
- the resulting mushroom does not carry the taste of the herbs or juices; such a mushroom does not taste of mushroom or cabbage.
- the fermentation greatly enhances the nutritional constituents and growth speed of the mushroom culture.
- a Trametes versicolor product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed, together with 75-80% (1000-1,100 g.
- the resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media.
- Hericium erinaceus product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed, together with 75-80% (1000-1,100 g.
- the resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media. Even when blueberry juice is used, the resulting mushroom product does not taste like blueberries.
- mushroom culture and fermentation of grains, seeds, herb and juices are conducted at temperatures and pressures, as well as hydration rates, typical for mushroom culture at this writing.
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Abstract
Description
- This patent application claims priority to, and incorporates herein by reference, U.S. Provisional patent application No. 61/983,244 filed 23 Apr. 2014.
- 1. Field of the Invention
- Improved fungiculture for edible and particularly medicinal mushrooms imparts better constituency and enhanced growth and strength of biomass and speed of fungiculture.
- 2. Description of Related Art
- Traditional growth media for edible or medicinal mushrooms has conventionally included a variety of substrates, including but not limited to wood chips, sawdust, mulched straw (typically of wheat or rice); brewer's grain, stockyard, horse or poultry manure, ground corncobs, paper, coffee grounds, nut-, seed- and cocoa-bean-hulls, soybean, cottonseed or rice meal, or other generally chitinous substrates. One of the present inventors has previously grown mushrooms on particularly specified media, such as purple corn, to facilitate the uptake of desired nutrients in the mushroom end product. However, up until now, the engineering of mushroom mass as to a specialized constituency has been in its infancy. It simply has not been known, prior to this writing, what can be added to mushroom growth substrate that can be taken up in the mushroom mass and preserved into the mature, harvestable mushroom product. However, at this writing medicinal mushrooms are enjoying great popularity, due to their character as a robust natural substance which can be organically grown, safely maintained and shipped, and dried without loss of essential bioactive ingredients. Because edible and particularly medicinal mushrooms can transform into exceptional nutritional and pharmaceuticals of long shelf life and notable quality, a need remains for ways of growing mushroom biomass having desired composition and unusually hearty and fast growth characteristics.
- In order to meet this need, the present invention is an innovative method of growing certain strains of mushrooms on newly specified media to create heretofore unattainable robust biomass having desired nutritional and pharmaceutical (nutraceutical) profiles. The fungi grown according to the invention are selected from the group consisting of: Ganoderma lucidum; Ganoderma japonicum; Ganoderma applanatum; Ganoderma Tsugae; Lentinula edodes; Grifola frondosus; Tremella fuciformia; Tremella mesenterica; Cordyceps sinensis; Cordyceps militaris; Hericium erinaceus; Polyporous umbellatus; Scizophylum commune; Fomes fomentaris; Inonotuus obliquus; Lepiota procera; Auricularia auricula; Tuber melanosporum; Tricholoma matsutake; Hericium coralloides; Trametes versicolor; Phellinus linteus; Poria cocos; Antrodia camphorate; Flammulina velutipes; Pleurotus ostreatus; Pleurotus energyii; and Agaricus blazeii. According to the invention, these fungus varieties are grown on media selected from the group consisting of (or preponderantly containing one or more of) Black rice; Ashwaghandha; Cacao nibs; Black Chia seed; Flax seed; Black Quinoa; Black Sesame; Hemp Seed; Cannabis Sativa/Indica—flowers/leaves; Sunflower seeds; Pumpkin seeds; Spirulina; Lemon Peel; Chili Pepper; Kelp; Alfalfa leaf; Watercress; Cilantro; Sage; Thyme; Parsley; Broccoli Seed; Mate; green Coffee Beans; Roasted Coffee Beans; Green Tea; Rhodiola; Siberian Ginseng; Sea Buckthorn Berry; Black Soy Bean; Olive leaf; Cabbage; Milk Thistle seed; Milk Thistle leaf; Turmeric; Bupleurum; Artichoke leaf; Dandelion leaf; Dandelion root; Hibiscus flower; Ginkgo leaf; Bacopa; Periwinkle; Fava Bean; Peppermint; Hawthorn Berry; Cardamon; Garlic; Mung Bean; Astragalus Root; Echinacea purpurea root; Echinacea angustifolia root; Echinacea angustifolia leaf; Elder berries; Elder Flower; Goldenseal Leaf; Goldenseal root; Olive Leaf; Ginger; Orange Peel and Blossom; Clove; Cinammon; Fennel; Kelp; Bitter Orange/Bergamot; Hibiscus Flower; Frankincense tears; Holy Basil; Celery seed; Bilberry leaf; Gymnema sylvestre leaf; Fennugreek; Bitter Melon; Saw Palmetto; Nettle; Red Clover Blossom; Black Cohosh; Chaste Tree Berries; Dong Quai Root; Hop Flowers; Licorice root; Wild Yam; Thyme Leaf; Oregano; Hyssop; Marjoram; American Ginseng; Panax Ginseng—red and white; Cruciferous vegetables; Schizandra; Goji Berry; Tribulus; Velvet Bean; Cranberry; Almonds; white Quinoa and Epimidium. The growth of the listed fungi on the listed medium gives new and unexpected results not only in mushroom constituency but in strength and viability of mushroom mass and faster and more robust growth than the same fungi can achieve on traditional growth substrates. More particularly, the invention in its preferred embodiment includes all of a fungal species, a juice, a grain and a seed—in a fermentation with all constituents together—in order to enhance the nutritional profile of the resulting product.
- The present invention comprises growing certain edible or medicinal mushrooms on specialized substrates (media) in the nature of HERBS, SPICES, FRUITS, VEGETABLES, ALGAE, GRAINS AND SEEDS. As described above, the present invention is an innovative method of growing certain strains of mushrooms on newly specialized media to create heretofore unattainable robust biomass having desired nutritional and pharmaceutical (nutraceutical) composition. The fungi grown according to the invention are selected from the group consisting of: Ganoderma lucidum; Ganoderma japonicum; Ganoderma applanatum; Ganoderma Tsugae; Lentinula edodes; Grifola frondosus; Tremella fuciformia; Tremella mesenterica; Cordyceps sinensis; Cordyceps militaris; Hericium erinaceus; Polyporous umbellatus; Scizophylum commune; Fomes fomentaris; Inonotuus obliquus; Lepiota procera; Auricularia auricula; Tuber melanosporum; Tricholoma matsutake; Hericium coralloides; Trametes versicolor; Phellinus linteus; Poria cocos; Antrodia camphorate; Flammulina velutipes; Pleurotus ostreatus; Pleurotus energyii; and Agaricus blazeii. According to the invention, these fungi varieties are grown on media selected from the group consisting of (or preponderantly containing one or more of) Black rice; Ashwaghandha; Cacao nibs; Black Chia seed; Flax seed; Black Quinoa; Black Sesame; Hemp Seed; Cannabis Sativa/Indica—flowers/leaves; Sunflower seeds; Pumpkin seeds; Spirulina; Lemon Peel; Chili Pepper; Kelp; Alfalfa leaf; Watercress; Cilantro; Sage; Thyme; Parsley; Broccoli Seed; Mate; green Coffee Beans; Roasted Coffee Beans; Green Tea; Rhodiola; Siberian Ginseng; Sea Buckthorn Berry; Black Soy Bean; Olive leaf; Cabbage; Milk Thistle seed; Milk Thistle leaf; Turmeric; Bupleurum; Artichoke leaf; Dandelion leaf; Dandelion root; Hibiscus flower; Ginkgo leaf; Bacopa; Periwinkle; Fava Bean; Peppermint; Hawthorn Berry; Cardamon; Garlic; Mung Bean; Astragalus Root; Echinacea purpurea root; Echinacea augustifolia root; Echinacea augustifolia leaf; Elder berries; Elder Flower; Goldenseal Leaf; Goldenseal root; Olive Leaf; Ginger; Orange Peel and Blossom; Clove; Cinammon; Fennel; Kelp; Bitter Orange/Bergamot; Hibiscus Flower; Frankincense tears; Holy Basil; Celery seed; Bilberry leaf; Gymnema sylvestre leaf; Fennugreek; Bitter Melon; Saw Palmetto; Nettle; Red Clover Blossom; Black Cohosh; Chaste Tree Berries; Dong Quai Root; Hop Flowers; Licorice root; Wild Yam; Thyme Leaf; Oregano; Hyssop; Marjoram; American Ginseng; Panax Ginseng—red and white; Cruciferous vegetables; Schizandra; Goji Berry; Tribulus; Velvet Bean; Cranberry; Almonds; white Quinoa and Epimidium. The growth of the listed fungi on the listed medium gives new and unexpected results not only in mushroom constituency but in strength and viability of mushroom mass and faster and more robust growth than the same fungi can achieve on traditional growth substrates.
- Certified organic biologically active nutraceutical raw material compounds are produced by inoculating herbs, spices, fruits, teas, vegetables, algae, grains, seeds and dairy products with a range of cultures of functional fungi species' (symbiotic transformation system). The living cultures pre-digest the foods and herbs transforming and potentiating these ingredients. Grains and seeds are sprouted/germinated prior to inoculation. The STS (Symbiotic Transformation System) uses organic whole food ingredients, with zero filler ingredients, zero inactive ingredients, no isolated chemicals, no extracts resulting in a full spectrum potentiation of organic food factors. No sugars are used as culture stimulants. A unique lipid delivery system is contained within each formulation. Products created using the STS can be vegetarian/vegan friendly. Ingredients are not mixed together, they're fused together by a natural live fermentation process. Raw materials derived from this process are truly whole, truly live. The culture is never killed/terminated with enzymes or heat, that is, materials are truly raw, and dried only below 118 degrees F. These nutrient rich raw materials are grown using organic juices, milks and purees in addition to the base media. In the preferred embodiments of the invention, during the cultivation/fermentation process specific music is played providing frequency generating vibrations to impart energy into the finished products. The STS process creates whole foods rich in vitamins, amino acids, trace minerals, polysaccharides, Beta Glucans, Alpha Glucans, Proteoglycans, Antioxidants, Enzymes, Pectins, Ribonucleases, Ubiquitin like proteins, Arabinoxylines, coenzymes and chelated mineral activators may be added and greatly enhance the bioavailability of beneficial compounds taken up from the specified media.
- The present media may be supplemented with liquid additions as follows. ORGANIC JUICES, MILKS, PUREES USED IN THIS INVENTION are listed below but not limited to: Organic Carrot Juice Concentrate; Organic Concord Grape Juice; Organic pomegranate Juice Concentrate; Organic Ginger Juice; Organic Blueberry Puree; Organic Acai Puree; Organic Plum Puree; Organic raspberry Puree; Organic Tomato Puree; Organic Cranberry Juice; Organic Goat Milk; Organic Heavy Cream; Organic Coconut Cream; Organic Coconut Water; Organic Cherry Juice; Organic Green Tea; Organic Apple Juice; Organic Vegetable Juice; Organic Pineapple Juice; Organic Aloe Juice; Organic cold brewed coffee; Organic Almond Milk; Organic Chicken Broth; Organic Vegetable Broth or Organic Roasted Coffee.
- In the preferred embodiment of the invention, a fungal species is grown and fermented, both, with all of a grain (or seed), an herb and a juice, to give optimal medicinal and nutritional profiles to the resulting fungi. The inventors have determined that the co-fermentation of a juice, a seed (grain) and an herb, together with the fungi growth, distinctly enhances the mushroom composition compared to mushrooms grown on traditional inert media. Indeed—except for the applicant's prior patented “purple corn” mushroom growth medium (U.S. Pat. No. 7,178,285 entitled, “Functional substrates for growth of culinary and medicinal mushrooms”) the industry has emphasized stable, inert and largely nutritionally irrelevant growth media for mushrooms. Now, however, the inventors realize that not only is the growth medium important for mushroom culture, that also there is a specific beneficial synergy that results when mushrooms are grown in a co-fermentation in which the growth media includes a grain (or seed), an herb and a juice, in additional to the mushroom mass or mycelial inoculant. Moreover, through experimentation, the inventors herein have determined even further that not all fungal species react the same to different specialized growth media. Ophiocordyceps sinensis and Ophiocordyceps militaris are the most sensitive of all the species tested, and require a particular combination of relatively higher fat seeds (one or more of black chia, sunflower, pumpkin, hemp, sesame or brown flax) and lower sugar juices (aloe vera, celery, parsley, cucumber) with one or more herbs, to give the best growth and the best mushroom composition. By contrast, other species (Ganoderma lucidum, Trametes versicolor, and Hericium erinaceus) have a wider tolerance to choice of growth media, meaning the juice does not need to be low sugar, but even these species grow better on relatively low fat seeds (red canihua, red quinoa, black quinoa, black/purple rice or purple millet) in combination with the juice and the herb, rather than on the higher fat seeds (see above). These beneficial combinations have already been quantified as follows. New and unexpectedly improved growth and mushroom composition result when certain ratios of inclusion of media constituents are observed. Across the mushroom species, these ratios are a constant: 20-25% of the seed or grain component, whether lower or higher fat, and 75-80% of the herb (botanical) such as Ashwaganda Root, Turmeric Rhizome, Milk Thistle Seed, Holy Basil Leaf, Ginger Rhizome; Oregano Leaf; Cinnamon Bark, Schizandra Berry, Amly Berry, Lemon Peel or Green Tea. Juices are not measured in percentages but instead are used in amounts that are sufficient for adequate hydration for the mushroom culture, and these amounts are within the skill of the art.
- Cordyceps sinensis cultivated/grown on Ashwaganda root—two adaptogenic compounds fused together through the technology of this invention. Rapid and dense growth of mycellium during the cultivation/fermentation process is noted. Cordyceps and Ashwaganda complement each other in their powerful medicinal qualities producing a tonic for health that is unique and exceptional. Furthermore, when Cordyceps sinensis is grown on Ashwaganda root growth medium, growth is surprisingly fast and the biomass becomes robust at a speed that is unusual and unexpected.
- Hericium erinaceus cultivated/grown on Ginkgo biloba leaves—this marriage of two prized nutritional ingredients that have been extensively researched for their Cognitive enhancing properties have been hailed for its potential application in slowing down the progression of mental decline and age related neuro degeneration. Rapid and dense growth of mycellium during the cultivation/fermentation process is noted.
- Cordyceps sinensis is cultivated/grown on Cacao nibs to produce a nutritionally significant nutraceutical, confection ingredient and/or powder for protein and meal replacement products. Rapid and dense growth of mycelium during the cultivation/fermentation process is noted.
- High Energy Whole Food Protein Powder consisting of Pumpkin Seed, Sunflower seed, Chia Seed, Hemp seed, Flax seed, Black sesame seed and Cacao in a base of organic concord grape juice inoculated with Cordyceps sinensis. Rapid and dense growth of mycellium during the cultivation/fermentation process is noted.
- In order to prepare a Ganoderma lucidum product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed, together with 75-80% (1000-1,100 g. per 1,363 g total material on a dry weight basis) of the following one or more herbs: Ashwagandha root; Turmeric rhizome; Milk Thistle seed; Holy Basil Leaf; Ginger Rhizome; Oregano Leaf; Cinnamon Bark; Schizandra berry; Amly berry; lemon peel and green tea, and moisten with 500-1,000 ml total liquid taken from one or more of aloe vera, inner leaf juice; purple carrot juice; grape juice; apple juice; pomegranate juice; beet juice; parsley juice; or cabbage juice. The resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media. Interestingly, the resulting mushroom does not carry the taste of the herbs or juices; such a mushroom does not taste of mushroom or cabbage. However, the fermentation greatly enhances the nutritional constituents and growth speed of the mushroom culture.
- In order to prepare an Orphicordyceps sinensis or Orphiocordyceps militaris product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed BUT emphasize the higher fat/lower starch ones, namely, black chia seed, sunflower seed, pumpkin seed, hemp seed, sesame seed and brown flax seed, together with 75-80% (1000-1,100 g. per 1,363 g total material on a dry weight basis) of the following one or more herbs: Ashwagandha root; Turmeric rhizome; Milk Thistle seed; Holy Basil Leaf; Panax Ginseng; Rhodicia Rosea; Schizandra berry; Amly berry; lemon peel and green tea, and moisten with 500-1,000 ml total liquid taken from one or more of aloe vera, inner leaf juice; celery juice; parsley juice or cucumber juice (these are the relatively lower sugar juices). The resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media. Interestingly, the resulting mushroom does not carry the taste of the herbs or juices; such a mushroom does not taste of mushroom or cabbage. However, the fermentation greatly enhances the nutritional constituents and growth speed of the mushroom culture.
- In order to prepare a Trametes versicolor product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed, together with 75-80% (1000-1,100 g. per 1,363 g total material on a dry weight basis) of the following one or more herbs: Ashwagandha root; Turmeric rhizome; Milk Thistle seed; Holy Basil Leaf; Ginger Rhizome; Oregano Leaf; Cinnamon Bark; Schizandra berry; Amly berry; lemon peel and green tea, and moisten with 500-1,000 ml total liquid taken from one or more of aloe vera, inner leaf juice; purple carrot juice; grape juice; apple juice; pomegranate juice; beet juice; parsley juice; or cabbage juice. The resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media.
- In order to prepare a Hericium erinaceus product take 20-25% biomass (260-340 g per 1,363 grams total material on a dry weight basis) of one or more the following grains and seeds (more grains than seeds): red canihua; red quinoa; black quinoa; black/purple rice; purple millet; black chia seed; sunflower seed; pumpkin seed; hemp seed; sesame seed and brown flax seed, together with 75-80% (1000-1,100 g. per 1,363 g total material on a dry weight basis) of the following one or more herbs: Ashwagandha root; Turmeric rhizome; Milk Thistle seed; Holy Basil Leaf; Ginkgo Leaf; Bacopa; Periwinkle; Oregano Leaf; Schizandra berry; Amly berry; and green tea, and moisten with 500-1,000 ml total liquid taken from one or more of blueberry juice; purple carrot juice; grape juice; pomegranate juice; beet juice and/or red cabbage juice. The resulting biomass grows significantly faster than on neutral media and water, and produces a greater number of larger fungal fruiting bodies containing more polysaccharides, vitamins, minerals, essential fatty acids, polyphenolic antioxidants and organic acids than typical fungal mycelia using standard growth media. Even when blueberry juice is used, the resulting mushroom product does not taste like blueberries. For this and all examples mushroom culture and fermentation of grains, seeds, herb and juices are conducted at temperatures and pressures, as well as hydration rates, typical for mushroom culture at this writing.
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Also Published As
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US20190320596A1 (en) | 2019-10-24 |
WO2015164496A1 (en) | 2015-10-29 |
US10881055B2 (en) | 2021-01-05 |
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