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{{short description|Type of single-cell fungal protein}} {{short description|Type of single-cell fungal protein}}


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'''Mycoprotein''' (lit. "protein from fungus"), also known as mycelium-based protein or fungal protein, is a form of ] derived from ] for human consumption.<ref name=":2">{{Cite journal |last1=Finnigan |first1=Tim JA |last2=Wall |first2=Benjamin T |last3=Wilde |first3=Peter J |last4=Stephens |first4=Francis B |last5=Taylor |first5=Steve L |last6=Freedman |first6=Marjorie R |title=Mycoprotein: The Future of Nutritious Nonmeat Protein, a Symposium Review |url=https://linkinghub.elsevier.com/retrieve/pii/S2475299122130295 |journal=Current Developments in Nutrition |date=2019 |language=en |volume=3 |issue=6 |pages=nzz021 |doi=10.1093/cdn/nzz021 |pmc=6554455 |pmid=31187084}}</ref>
'''Mycoprotein''' (lit. "fungus protein") is a form of ], also known as '''fungal protein''', derived from fungi for human consumption.<ref>'']''</ref>
Though it is generally well tolerated, some studies indicate that mycoprotein may cause allergic reactions in some people.{{Citation needed|date=June 2023}}


Though these products derived from mycoprotein often are referred to as ], this assortment is per definition wrong as the ], including mushroom-forming species as well as ] and ], are separate from those of animals (]) and plants (]).<ref>{{Cite web |last=Food and Drug Administration |date=2017 |title=Nutrition Information for Raw Vegetables |url=https://www.fda.gov/food/food-labeling-nutrition/nutrition-information-raw-vegetables |access-date=2023-12-20 |website=FDA}}</ref><ref name=":3">{{Cite web |last= |date=2023-12-20 |title=Future of Fungi: Mycoprotein's Role as an Alternative Protein |url=https://proteindirectory.com/blog/mycoprotein/ |access-date=2023-12-20 |website=Protein Directory}}</ref>
== Quorn ==
The first mycoprotein available to consumers is marketed under the brand name ], created from '']''<ref name=":0">{{cite journal | vauthors = Wiebe MG | title = Myco-protein from Fusarium venenatum: a well-established product for human consumption | journal = Applied Microbiology and Biotechnology | volume = 58 | issue = 4 | pages = 421–427 | date = March 2002 | pmid = 11954786 | doi = 10.1007/s00253-002-0931-x | s2cid = 206934191 }}</ref> and currently sold in 17 countries. It is a fermented product with a doughy consistency and slight mushroom flavor.


With that said, mycoprotein should neither be confused with mushroom-based products, as the part of fungi grown for mycoprotein is the ] of the fungi, called mycelium, which can be compared to the roots of the organism.<ref>{{Citation |last=Peberdy |first=John F. |title=Vegetative Growth of Filamentous Fungi |date=1980 |url=http://link.springer.com/10.1007/978-1-4613-3927-4_3 |work=Developmental Microbiology |pages=44–68 |access-date=2023-12-20 |place=Boston, MA |publisher=Springer US |language=en |doi=10.1007/978-1-4613-3927-4_3 |doi-broken-date=1 November 2024 |isbn=978-1-4613-3929-8}}</ref> Metaphorically, the mushroom and the mycelium are as similar as a fruit is to the roots of its tree.
In the 1960s ''F. venenatum'' was identified by the British company, ], as a potential protein source for humans. ''F. venenatum'' was one of more than 3,000 species of fungi screened during a three-year period for being cheap to reproduce in ], nutritious, and palatable. Concerns for pathogen-potential of the species on plants led to a twelve-year testing process. Quorn was approved for use in the United Kingdom in 1983 and the United States in 2001.{{citation needed|date=July 2023}}


== The Market ==
In 2022 the food company Meati Inc. introduced MushroomRoot™, derived from ].<ref>{{cite web | url=https://meati.com/blog/what-is-meatis-star-ingredient-mushroom-root/ | title = What is meati whole cuts’ star ingredient, MushroomRoot? | access-date = 2023-09-27}}</ref>


== Synthesis == === History ===
The discovery of mycoprotein was a result of "The Green Protein Revolution"-inspired British scientists looking for a sustainable alternative protein that could offset the global crisis fueled by population growth, food shortage and ]. Dr Tim Finnigan, former Chief Scientific Officer at Marlow Foods, has previously described how these scientists collected over 3000 soil organisms around the world before discovering '']'': a micro fungus that grows in filaments (long thread-like cells) and effectively transforms ] into a fibrous, meat-like, and protein-rich ingredient. In 1985, almost 20 years later, Marlow Foods became the first company to launch mycoprotein-based products on the market under the brand name ].<ref name=":2" />
The fungus is grown in ] using ] as its food. A fermentation vat is filled with the growth medium and then inoculated with the fungal spores. The '']'' culture ] ], so for it to grow at an optimum rate, it is supplied with oxygen, and carbon dioxide is drawn from the vat. To make protein, ] (in the form of ]) is added and vitamins and minerals needed to support growth. The vat is kept at a constant temperature. The fungus can double its mass every five hours.


=== Today ===
Eventually the growth medium is drawn off from a tap at the bottom of the ] and the mycoprotein is separated and purified. It is a pale yellow solid with a faint taste of mushrooms. Different flavors and tastes can be added to the mycoprotein to add variety.<ref>{{cite journal | vauthors = Yoder WT, Christianson LM | title = Species-specific primers resolve members of Fusarium section Fusarium. Taxonomic status of the edible "Quorn" fungus reevaluated | journal = Fungal Genetics and Biology | volume = 23 | issue = 1 | pages = 68–80 | date = February 1998 | pmid = 9501478 | doi = 10.1006/fgbi.1997.1027 }}</ref>
With Quorn's patents lapsing and the increasing need for alternative proteins due to the growing world population, rising emissions, and water usage, numerous start-up companies worldwide have begun developing mycoprotein-based ingredients and products, often using new strains and innovative technologies. For example, the Swedish company Millow, along with the Scottish company ENOUGH, are developing mycoprotein ingredients. ENOUGH produces the mycoprotein ingredient ABUNDA, utilizing submerged fermentation methods, while Millow uses a dry fermentation method for its mycoprotein production. These companies focus on the ] supply of their take on a mycoprotein ingredient. Other companies, such as Spanish Libre and American MyForest Foods, have instead chosen to launch mycoprotein-based products in retail, hence working ].<ref name=":3" /><ref>{{Cite web |last=bishop |title=Smarta sporer ska få fler att välja vego |url=https://swedenfoodarena.se/smarta-sporer-ska-fa-fler-att-valja-vego/ |access-date=2024-06-10 |website=Sweden Food Arena |language=sv-SE}}</ref>


== Production & Synthesis ==
A reproducible mutation occurs after 1,000 to 1,200 hours of cultivation in F. venenatum that greatly reduces the ] in the organism, which is considered unfavorable for production. Under normal conditions, this mutant strain will rapidly displace the parent strain.<ref name=":0" /> Replacing ammonia with ] as the source of nitrogen, or supplementing ammonium cultures with ], prevents this mutant strain from overtaking the product, but still allows development. Alternatively, the appearance of the mutant can be delayed by selection pressures such as nutrient concentrations or ]s.<ref name=":0" />
The production of mycoprotein takes place in ], like in beer production. The fungi are grown under ] conditions, to which ], ] and essential vitamins and minerals are supplied. Carbon dioxide is drawn from the vat. In the case of ], ] is supplied for carbon and ] for nitrogen. Parameters such as stirring, ] and temperature are also essential for optimal growth.<ref name=":2" />


At harvest, the fungus is washed and heat treated to reduce the ] (RNA) content according to safety regulations before undergoing further processing steps.<ref name=":2" /> Different flavors and tastes can be added to the mycoprotein to add variety.<ref>{{cite journal |vauthors=Yoder WT, Christianson LM |date=February 1998 |title=Species-specific primers resolve members of Fusarium section Fusarium. Taxonomic status of the edible "Quorn" fungus reevaluated |journal=Fungal Genetics and Biology |volume=23 |issue=1 |pages=68–80 |doi=10.1006/fgbi.1997.1027 |pmid=9501478}}</ref>
== Health concerns ==
Some strains of ''F. venenatum'' produce a variety of ]s, such as type A ]. Mycotoxin-producing genes such as isotrichodermin, isotricodermol, sambucinol, apo-trichothecen, culmorin, culmorone, and enniatin B can be found in cultures of ''F. venenatum''.<ref name=":0" /> Specific strains that do not produce mycotoxins under optimal conditions can be selected to reduce the danger to human consumers. Testing at six-hour intervals can be done to monitor mycotoxin presence.


A reproducible mutation occurs after 1,000 to 1,200 hours of cultivation in ''F. venenatum'' that greatly reduces the ] in the organism, which is considered unfavorable for production. Under normal conditions, this mutant strain will rapidly displace the parent strain. Replacing ammonia with ] as the source of nitrogen, or supplementing ammonium cultures with ], prevents this mutant strain from overtaking the product, but still allows development. Alternatively, the appearance of the mutant can be delayed by selection pressures such as nutrient concentrations or ]s.<ref name=":0">{{cite journal |vauthors=Wiebe MG |date=March 2002 |title=Myco-protein from Fusarium venenatum: a well-established product for human consumption |journal=Applied Microbiology and Biotechnology |volume=58 |issue=4 |pages=421–427 |doi=10.1007/s00253-002-0931-x |pmid=11954786 |s2cid=206934191}}</ref>
There is continual testing for concerns of allergic reactions, which can range from abdominal pain, nausea, and vomiting to severe asthmatic reactions,<ref name=":0" /><ref>{{cite journal | vauthors = Hoff M, Trüeb RM, Ballmer-Weber BK, Vieths S, Wuethrich B | title = Immediate-type hypersensitivity reaction to ingestion of mycoprotein (Quorn) in a patient allergic to molds caused by acidic ribosomal protein P2 | language = English | journal = The Journal of Allergy and Clinical Immunology | volume = 111 | issue = 5 | pages = 1106–1110 | date = May 2003 | pmid = 12743577 | doi = 10.1067/mai.2003.1339 | doi-access = free }}</ref> especially when crossed with inhaled ] spores.<ref>{{cite journal | vauthors = Van Durme P, Ceuppens JL, Cadot P | title = Allergy to ingested mycoprotein in a patient with mold spore inhalant allergy | language = English | journal = The Journal of Allergy and Clinical Immunology | volume = 112 | issue = 2 | pages = 452–454 | date = August 2003 | pmid = 12897757 | doi = 10.1067/mai.2003.1613 }}</ref>


== Nutrition potential == == Sensory, Nutrition & Health ==
Due to the root-like structure of the mycelium, the texture and nutrition of mycoprotein is very different from those of plants, leading to the possibility of creating vegetarian and vegan friendly products with the fibrous texture of meat. As it is high in protein and fiber, and low in fat, ], ] and sugar, the composition aligns with current dietary guidelines.<ref name=":2" /><ref name=":4">{{Cite journal |last=Derbyshire |first=Emma |date=2022-02-23 |title=Food-Based Dietary Guidelines and Protein Quality Definitions—Time to Move Forward and Encompass Mycoprotein? |journal=Foods |language=en |volume=11 |issue=5 |pages=647 |doi=10.3390/foods11050647 |doi-access=free |issn=2304-8158 |pmc=8909067 |pmid=35267280}}</ref> This nutritional advantage, as mentioned in the ] (2023), is why several studies have shown that consumption of mycoprotein has been associated with several health benefits, such as improved blood levels of cholesterol and sugar. The mechanism that links fiber content and mycoprotein's effect on managing ] and insulinemia is not entirely understood, and often disputed by endocrinologists, but is known to decrease the rate of glucose absorption and ] secretion, whilst lowering insulin peaks by mitigating the maximum limit an amount of insulin can process glucose.<ref>{{Cite journal |vauthors=Denny A, Aisbitt B, Lunn J |date=2008-12-01 |title=Mycoprotein and health |url=https://insights.ovid.com/nutrition-bulletin/nutbu/2008/12/000/mycoprotein-health/5/00094955 |journal=Nutrition Bulletin |volume=33 |issue=4 |pages=298–310 |doi=10.1111/j.1467-3010.2008.00730.x |issn=1471-9827}}</ref> The majority of this benefit is widely believed to be down to the high protein content, which stimulates encretins and satiety; and the high fibre content which makes people feel fuller for longer.
Mycoprotein is able to provide greater satiety than traditional protein sources such as chicken, while also being low in caloric content. Replacing two servings of meat protein with mycoprotein can result in a daily deficit of {{convert|80|kcal|kJ}},<ref name=":1">{{cite journal | vauthors = Williamson DA, Geiselman PJ, Lovejoy J, Greenway F, Volaufova J, Martin CK, Arnett C, Ortego L | display-authors = 6 | title = Effects of consuming mycoprotein, tofu or chicken upon subsequent eating behaviour, hunger and safety | journal = Appetite | volume = 46 | issue = 1 | pages = 41–48 | date = January 2006 | pmid = 16364496 | doi = 10.1016/j.appet.2005.10.007 | s2cid = 25933762 | author5-link = Júlia Volaufová }}</ref> whilst also extending the period of satiation, which is promising for ] programs. Mycoprotein is rich in fiber and protein content, but very low in fat, making it a desirable food source for consumers trying to limit fat intake while still participating in a high protein diet.


Back in 2001, a review article published in the Food Technology Magazine summarized how a panel of experts evaluated the sustainability of mycoprotein (produced by Marlow Foods) for food use in the United States. During this evaluation, the ] was evaluated using both the FDA ] (PDCAAS) as well as a human volunteer study. The evaluation showed that mycoprotein has an excellent pattern of ], and a PDCAAS score of 0.91 based on an estimate of 78% ], comparable to the scores of ] and ]. In addition to this, the ] pattern was concluded to be more similar to that of ] than ], containing a low proportion of ] and a high proportion of ] and ].<ref name=":5">{{Cite journal |last1=Miller |first1=S |last2=Dwyer |first2=J |date=2001 |title=Evaluating the Safety and Nutritional Value of Mycoprotein |journal=Food Technology |volume=55 |issue=7 |pages=42–45}}</ref>
''F. venenatum''<nowiki/>'s high fiber content also has potential in managing ] levels and reducing cholesterol<ref>{{cite journal | vauthors = Farsi DN, Gallegos JL, Finnigan TJ, Cheung W, Munoz JM, Commane DM | title = The effects of substituting red and processed meat for mycoprotein on biomarkers of cardiovascular risk in healthy volunteers: an analysis of secondary endpoints from Mycomeat | journal = European Journal of Nutrition | date = August 2023 | pmid = 37624376 | doi = 10.1007/s00394-023-03238-1 | s2cid = 261121463 }}</ref><ref>{{cite journal | vauthors = Coelho MO, Monteyne AJ, Dirks ML, Finnigan TJ, Stephens FB, Wall BT | title = Daily mycoprotein consumption for 1 week does not affect insulin sensitivity or glycaemic control but modulates the plasma lipidome in healthy adults: a randomised controlled trial | journal = The British Journal of Nutrition | volume = 125 | issue = 2 | pages = 147–160 | date = January 2021 | pmid = 32660657 | doi = 10.1017/S0007114520002524 | hdl = 10871/122544 | s2cid = 220518655 }}</ref> <ref>{{cite journal | vauthors = Shahid M, Gaines A, Coyle D, Alessandrini R, Finnigan T, Frost G, Marklund M, Neal B | display-authors = 6 | title = The effect of mycoprotein intake on biomarkers of human health: a systematic review and meta-analysis | journal = The American Journal of Clinical Nutrition | volume = 118 | issue = 1 | pages = 141–150 | date = July 2023 | pmid = 37407163 | doi = 10.1016/j.ajcnut.2023.03.019 | s2cid = 259354379 }}</ref>


Also mentioned in this review, as well as in more recent articles, is that mycoprotein contains no or very low levels of ] (also known as phytates), which are notorious ] present in many plant-based protein sources. This means that in contrast to most beans and legumes, consumption of mycoprotein does not inhibit the absorption of essential trace elements and minerals like iron, zinc, calcium, and manganese.<ref name=":5" /><ref>{{Cite journal |last1=Mayer Labba |first1=Inger-Cecilia |last2=Steinhausen |first2=Hannah |last3=Almius |first3=Linnéa |last4=Bach Knudsen |first4=Knud Erik |last5=Sandberg |first5=Ann-Sofie |date=2022-09-21 |title=Nutritional Composition and Estimated Iron and Zinc Bioavailability of Meat Substitutes Available on the Swedish Market |journal=Nutrients |language=en |volume=14 |issue=19 |pages=3903 |doi=10.3390/nu14193903 |doi-access=free |issn=2072-6643 |pmc=9571894 |pmid=36235566}}</ref>
The mechanism that links fiber content and ''F. venenatum''<nowiki/>'s effect on managing ] and ] is not completely understood, but it is known to decrease the rate of glucose absorption and ] secretion and it helps mitigate the maximum limit an amount of insulin can process glucose, known as insulin peak.<ref>{{Cite journal | vauthors = Denny A, Aisbitt B, Lunn J |date=2008-12-01 |title=Mycoprotein and health |url=https://insights.ovid.com/nutrition-bulletin/nutbu/2008/12/000/mycoprotein-health/5/00094955 |journal=Nutrition Bulletin |volume=33 |issue=4 |pages=298–310 |doi=10.1111/j.1467-3010.2008.00730.x |issn=1471-9827}}</ref>


Under optimum conditions ''F. venenatum'' biomass can be 42% protein while the fungal β-glucan present may also function as a ], Stimulating the growth of health associated bacteria in the lower gut.<ref name=":1" /> <ref>{{cite journal | vauthors = Farsi DN, Gallegos JL, Koutsidis G, Nelson A, Finnigan TJ, Cheung W, Muñoz-Muñoz JL, Commane DM | display-authors = 6 | title = Substituting meat for mycoprotein reduces genotoxicity and increases the abundance of beneficial microbes in the gut: Mycomeat, a randomised crossover control trial | journal = European Journal of Nutrition | volume = 62 | issue = 3 | pages = 1479–1492 | date = April 2023 | pmid = 36651990 | pmc = 10030420 | doi = 10.1007/s00394-023-03088-x }}</ref> It has also been found that mycoprotein produced by ''F. venenatum'' can consist of up to 42% protein while the fungal ] present may also function as a ], stimulating the growth of health associated bacteria in the lower gut.<ref name=":1">{{cite journal |author5-link=Júlia Volaufová |display-authors=6 |vauthors=Williamson DA, Geiselman PJ, Lovejoy J, Greenway F, Volaufova J, Martin CK, Arnett C, Ortego L |date=January 2006 |title=Effects of consuming mycoprotein, tofu or chicken upon subsequent eating behaviour, hunger and safety |journal=Appetite |volume=46 |issue=1 |pages=41–48 |doi=10.1016/j.appet.2005.10.007 |pmid=16364496 |s2cid=25933762}}</ref><ref>{{cite journal |display-authors=6 |vauthors=Farsi DN, Gallegos JL, Koutsidis G, Nelson A, Finnigan TJ, Cheung W, Muñoz-Muñoz JL, Commane DM |date=April 2023 |title=Substituting meat for mycoprotein reduces genotoxicity and increases the abundance of beneficial microbes in the gut: Mycomeat, a randomised crossover control trial |journal=European Journal of Nutrition |volume=62 |issue=3 |pages=1479–1492 |doi=10.1007/s00394-023-03088-x |pmc=10030420 |pmid=36651990}}</ref>

The texture and taste of mycoprotein may vary as different producers use different strains of fungi to produce their unique protein. For example, ], a company founded in Chicago 2021, produce their Fy Protein™ from ''Fusarium yellowstonensis'' (also known as ''Fusarium strain flavolapis'' or ''Fusarium oxysporum MK7''), an extremophile discovered in Yellowstone National Park, whilst Meati Inc. since 2022 produces their MushroomRoot™ from '']'' based on patented research by the Better Meat Co.<ref name=":3" /><ref>{{cite web |title=GRAS Notice 904 |website=] |url=https://www.fda.gov/media/142277/download |access-date=2023-11-16}}</ref><ref>{{cite web |title=What is meati whole cuts' star ingredient, MushroomRoot? |url=https://meati.com/blog/what-is-meatis-star-ingredient-mushroom-root/ |access-date=2023-09-27}}</ref><ref>{{cite web |author-last=Poinski |author-first=Megan |date=25 October 2022 |title=The Better Meat Co. patents mycelium it says 'does an even better job of mimicking' meat |url=https://www.fooddive.com/news/better-meat-co-mycelium-ingredient-patent-alternative-protein/634716/}}</ref> The texture and taste are also influenced by different downstream technology, i.e., the treatment after harvesting the vats. Mycoprotein produced by ''F. venenatum'' has, for example, been described as a pale yellow solid with a faint taste of mushrooms.<ref>{{Cite journal |last=Wiebe |first=M. |date=2002-03-01 |title=Myco-protein from Fusarium venenatum : a well-established product for human consumption |url=http://link.springer.com/10.1007/s00253-002-0931-x |journal=Applied Microbiology and Biotechnology |volume=58 |issue=4 |pages=421–427 |doi=10.1007/s00253-002-0931-x |pmid=11954786 |issn=0175-7598}}</ref>

=== Allergies & Hypersensitivity ===
] reactions caused by ingestion of mycoprotein is very rare, though it has previously occurred in people allergic to mold or other fungi.<ref name=":6">{{Cite journal |last1=Hoff |first1=Michael |last2=Trüeb |first2=Ralph M. |last3=Ballmer-Weber |first3=Barbara K. |last4=Vieths |first4=Stefan |last5=Wuethrich |first5=Brunello |year=2023 |title=Immediate-type hypersensitivity reaction to ingestion of mycoprotein (Quorn) in a patient allergic to molds caused by acidic ribosomal protein P2 |url=https://linkinghub.elsevier.com/retrieve/pii/S0091674903801409 |journal=Journal of Allergy and Clinical Immunology |language=en |volume=111 |issue=5 |pages=1106–1110 |doi=10.1067/mai.2003.1339|pmid=12743577 }}</ref><ref>{{Cite journal |last1=Xing |first1=Haiyan |last2=Wang |first2=Jianyong |last3=Sun |first3=Yuemei |last4=Wang |first4=Hongtian |date=2022-10-07 |editor-last=Batra |editor-first=Lalit |title=Recent Advances in the Allergic Cross-Reactivity between Fungi and Foods |journal=Journal of Immunology Research |language=en |volume=2022 |pages=1–10 |doi=10.1155/2022/7583400 |doi-access=free |issn=2314-7156 |pmc=9568318 |pmid=36249419}}</ref> For most individuals, mycoprotein is safe to eat.<ref name=":2" /> The fact is that 72.4% of allergic reactions and 67.6% of the ] reactions that have been reported after ingestion of a Quorn product occurred on an individual's first consumption of Quorn's products, which is an indication of cross-allergenicity with other ].<ref>{{Cite journal |last1=Jacobson |first1=Michael F. |last2=DePorter |first2=Janna |date=2018 |title=Self-reported adverse reactions associated with mycoprotein (Quorn-brand) containing foods |url=https://linkinghub.elsevier.com/retrieve/pii/S1081120618302187 |journal=Annals of Allergy, Asthma & Immunology |language=en |volume=120 |issue=6 |pages=626–630 |doi=10.1016/j.anai.2018.03.020|pmid=29567357 }}</ref> There is, however, continual testing for concerns of allergic reactions, which can range from abdominal pain, nausea, and vomiting to severe asthmatic reactions, especially when crossed with inhaled ] spores.<ref name=":0" /><ref name=":6" /><ref>{{Cite journal |last1=Van Durme |first1=Paul |last2=Ceuppens |first2=Jan L. |last3=Cadot |first3=Pascal |date=2003 |title=Allergy to ingested mycoprotein in a patient with mold spore inhalant allergy |url=https://linkinghub.elsevier.com/retrieve/pii/S0091674903900017 |journal=Journal of Allergy and Clinical Immunology |language=en |volume=112 |issue=2 |pages=452–454 |doi=10.1067/mai.2003.1613|pmid=12897757 }}</ref>

A few but not all strains involved in mycoprotein production are known to produce ] in very low concentrations, amongst others some strains of ''F. venenatum,'' which in Quorn's case is prohibited by continuous testing every 6th production hour.<ref name=":2" /> ''Fusarium yellowstonensis,'' on the other hand, is an example of a strain that has been found to have low allergenic potential and no mycotoxins has been detectable.<ref>{{Cite journal |last1=Furey |first1=Brian |last2=Slingerland |first2=Kathleen |last3=Bauter |first3=Mark R. |last4=Dunn |first4=Celeste |last5=Goodman |first5=Richard E. |last6=Koo |first6=Sophia |date=2022 |title=Safety evaluation of Fy Protein™ (Nutritional Fungi Protein), a macroingredient for human consumption |url=https://linkinghub.elsevier.com/retrieve/pii/S0278691522002034 |journal=Food and Chemical Toxicology |language=en |volume=166 |pages=113005 |doi=10.1016/j.fct.2022.113005|pmid=35636642 }}</ref>

== Law, Legislation & Recognition ==
Although mycoprotein is considered a new generation of alternative protein, most ] used to produce mycoprotein have been used for decades, some for centuries, and do not fall under the ] in the European Union.<ref>{{Cite journal |last1=Lähteenmäki-Uutela |first1=Anu |last2=Rahikainen |first2=Moona |last3=Lonkila |first3=Annika |last4=Yang |first4=Baoru |date=2021-12-01 |title=Alternative proteins and EU food law |journal=Food Control |volume=130 |pages=108336 |doi=10.1016/j.foodcont.2021.108336 |issn=0956-7135|doi-access=free }}</ref> Mycoprotein has been considered ] (GRAS) by the ] in the US since 2002.<ref>{{Cite web |title=GRN No. 91 |url=https://www.cfsanappsexternal.fda.gov/scripts/fdcc/index.cfm?set=GRASNotices&id=91&sort=GRN_No&order=DESC&startrow=151&type=basic&type2=basic&search=91&search2=91 |access-date=2024-01-08 |website=U.S. Food and Drug Administration |language=en-US}}</ref>

However, looking across the globe, mycoprotein has still not been fully recognized as the sufficient protein source it is, despite its nutritional and sustainable benefits and advantages. An open access article was published in early 2022 on the topic of the lack of a global uniformity when it comes to Food-Based Dietary Guidelines (FBDG). The author, reviewed by Marlow Foods, points out that the global protein guidance tends to be dichotomous and exclusively focuses on comparing animal and plant proteins, resulting in alternative proteins, such as fungal proteins, being overlooked.<ref name=":4" /> Subsequently, the author calls for fungal protein to be included in the forthcoming ] 2.0 publication, due in 2024, and the Nordic Dietary Guidelines.<ref name=":4" /><ref>{{Cite web |title=About EAT-Lancet 2.0 |url=https://eatforum.org/eat-lancet-commission/eat-lancet-commission-2-0/about-eat-lancet-commission-2-0/ |access-date=2024-01-17 |website=EAT |language=en-US}}</ref><ref name=":7">{{Cite book |title=Nordic Nutrition Recommendations 2023 Integrating Environmental Aspects. |publisher=Nordic Council of Ministers |location=Copenhagen |publication-date=2023}}</ref>

This article is certainly not the only call for acknowledgement of fungal protein. In 2022, several companies pioneering for food sustainability united to form a new trade association: The Fungi Protein Association (FPA). One of the purposes of the association is to united advocate for mycoprotein in public policy. The founding members of the association include previous mentioned companies such as ], ENOUGH, ] and ], but also companies as The Better Meat Co. and ].<ref>{{Cite web |date=2022-11-07 |title=All-Star List of Global Industry Leaders Unite to Form Fungi Protein Association - vegconomist - the vegan business magazine |url=https://vegconomist.com/fungi-mushrooms-mycelium/industry-leaders-form-fungi-protein-association/ |access-date=2023-12-20 |website=Vegconomist |language=en-GB}}</ref> Two members of the FPA, Mycorena and Quorn, published in 2022 an open letter to urge the Nordic Nutrition Recommendations (NNR) committee to review their selection of recommended protein sources and recognize fungi-derived proteins in food-based dietary guidelines.<ref>{{Cite web |last1=Nair |first1=R |last2=Bertacca |first2=M |title=Dear Nordic Nutrition Recommendations Committee |url=https://www.linkedin.com/posts/mycorena_sustainability-food-mycoprotein-activity-7054785165616664576-_WQB |access-date=2023-12-20 |website=LinkedIn}}</ref> The NNR committee responded by including fungi as a source of non-animal protein in their nutrition recommendations published in June 2023.<ref name=":7" />

== Environmental Impact ==
Several producers of mycoprotein have reported that production of mycoprotein has an environmental impact (including land-use, water consumption and carbon footprint) over 90% less than beef.<ref name=":3" /><ref>{{Cite web |title=ENOUGH - delicious, nutritious, sustainable |url=https://www.enough-food.com/ |access-date=2023-12-20 |website=ENOUGH - delicious, nutritious, sustainable |language=en-US}}</ref> Additionally, a study published in Nature 2022 found that replacing 20 percent of per-capita ruminant meat, such as beef, with fermentation derived microbial protein, such as mycoprotein, could cut global deforestation and carbon dioxide emissions by 50% in addition to lowering methane emissions. These numbers are under the assumption of consumer acceptance.<ref>{{Cite journal |last1=Humpenöder |first1=Florian |last2=Bodirsky |first2=Benjamin Leon |last3=Weindl |first3=Isabelle |last4=Lotze-Campen |first4=Hermann |last5=Linder |first5=Tomas |last6=Popp |first6=Alexander |date=2022-05-05 |title=Projected environmental benefits of replacing beef with microbial protein |url=https://www.nature.com/articles/s41586-022-04629-w |journal=Nature |language=en |volume=605 |issue=7908 |pages=90–96 |doi=10.1038/s41586-022-04629-w |pmid=35508780 |bibcode=2022Natur.605...90H |issn=0028-0836}}</ref>


== See also == == See also ==
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== References == == References ==

Latest revision as of 11:44, 2 November 2024

Type of single-cell fungal protein
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Mycoprotein prepared and served as a meat analogue

Mycoprotein (lit. "protein from fungus"), also known as mycelium-based protein or fungal protein, is a form of single-cell protein derived from fungi for human consumption.

Though these products derived from mycoprotein often are referred to as plant-based, this assortment is per definition wrong as the fungal kingdom, including mushroom-forming species as well as yeasts and molds, are separate from those of animals (Animalia) and plants (Plantae).

With that said, mycoprotein should neither be confused with mushroom-based products, as the part of fungi grown for mycoprotein is the vegetative growth of the fungi, called mycelium, which can be compared to the roots of the organism. Metaphorically, the mushroom and the mycelium are as similar as a fruit is to the roots of its tree.

The Market

History

The discovery of mycoprotein was a result of "The Green Protein Revolution"-inspired British scientists looking for a sustainable alternative protein that could offset the global crisis fueled by population growth, food shortage and greenhouse gas emissions. Dr Tim Finnigan, former Chief Scientific Officer at Marlow Foods, has previously described how these scientists collected over 3000 soil organisms around the world before discovering Fusarium venenatum: a micro fungus that grows in filaments (long thread-like cells) and effectively transforms starch into a fibrous, meat-like, and protein-rich ingredient. In 1985, almost 20 years later, Marlow Foods became the first company to launch mycoprotein-based products on the market under the brand name Quorn.

Today

With Quorn's patents lapsing and the increasing need for alternative proteins due to the growing world population, rising emissions, and water usage, numerous start-up companies worldwide have begun developing mycoprotein-based ingredients and products, often using new strains and innovative technologies. For example, the Swedish company Millow, along with the Scottish company ENOUGH, are developing mycoprotein ingredients. ENOUGH produces the mycoprotein ingredient ABUNDA, utilizing submerged fermentation methods, while Millow uses a dry fermentation method for its mycoprotein production. These companies focus on the business-to-business supply of their take on a mycoprotein ingredient. Other companies, such as Spanish Libre and American MyForest Foods, have instead chosen to launch mycoprotein-based products in retail, hence working business-to-consumer.

Production & Synthesis

The production of mycoprotein takes place in vats, like in beer production. The fungi are grown under aerobic conditions, to which nitrogen, carbon and essential vitamins and minerals are supplied. Carbon dioxide is drawn from the vat. In the case of F. venenatum, glucose is supplied for carbon and ammonia for nitrogen. Parameters such as stirring, pH and temperature are also essential for optimal growth.

At harvest, the fungus is washed and heat treated to reduce the ribonucleic acid (RNA) content according to safety regulations before undergoing further processing steps. Different flavors and tastes can be added to the mycoprotein to add variety.

A reproducible mutation occurs after 1,000 to 1,200 hours of cultivation in F. venenatum that greatly reduces the hypha length in the organism, which is considered unfavorable for production. Under normal conditions, this mutant strain will rapidly displace the parent strain. Replacing ammonia with nitrate as the source of nitrogen, or supplementing ammonium cultures with peptone, prevents this mutant strain from overtaking the product, but still allows development. Alternatively, the appearance of the mutant can be delayed by selection pressures such as nutrient concentrations or pH levels.

Sensory, Nutrition & Health

Due to the root-like structure of the mycelium, the texture and nutrition of mycoprotein is very different from those of plants, leading to the possibility of creating vegetarian and vegan friendly products with the fibrous texture of meat. As it is high in protein and fiber, and low in fat, cholesterol, sodium and sugar, the composition aligns with current dietary guidelines. This nutritional advantage, as mentioned in the United Nations Environment Programme (2023), is why several studies have shown that consumption of mycoprotein has been associated with several health benefits, such as improved blood levels of cholesterol and sugar. The mechanism that links fiber content and mycoprotein's effect on managing glycemia and insulinemia is not entirely understood, and often disputed by endocrinologists, but is known to decrease the rate of glucose absorption and insulin secretion, whilst lowering insulin peaks by mitigating the maximum limit an amount of insulin can process glucose. The majority of this benefit is widely believed to be down to the high protein content, which stimulates encretins and satiety; and the high fibre content which makes people feel fuller for longer.

Back in 2001, a review article published in the Food Technology Magazine summarized how a panel of experts evaluated the sustainability of mycoprotein (produced by Marlow Foods) for food use in the United States. During this evaluation, the protein quality was evaluated using both the FDA Protein Digestibility-Corrected Amino Acid Scoring (PDCAAS) as well as a human volunteer study. The evaluation showed that mycoprotein has an excellent pattern of amino acids, and a PDCAAS score of 0.91 based on an estimate of 78% digestibility, comparable to the scores of beef and soybean. In addition to this, the fatty acid pattern was concluded to be more similar to that of vegetable fat than animal fat, containing a low proportion of saturated fat and a high proportion of mono- and polyunsaturated fat.

Also mentioned in this review, as well as in more recent articles, is that mycoprotein contains no or very low levels of phytic acids (also known as phytates), which are notorious anti-nutrients present in many plant-based protein sources. This means that in contrast to most beans and legumes, consumption of mycoprotein does not inhibit the absorption of essential trace elements and minerals like iron, zinc, calcium, and manganese.

It has also been found that mycoprotein produced by F. venenatum can consist of up to 42% protein while the fungal β-glucan present may also function as a prebiotic, stimulating the growth of health associated bacteria in the lower gut.

The texture and taste of mycoprotein may vary as different producers use different strains of fungi to produce their unique protein. For example, Nature's Fynd, a company founded in Chicago 2021, produce their Fy Protein™ from Fusarium yellowstonensis (also known as Fusarium strain flavolapis or Fusarium oxysporum MK7), an extremophile discovered in Yellowstone National Park, whilst Meati Inc. since 2022 produces their MushroomRoot™ from Neurospora crassa based on patented research by the Better Meat Co. The texture and taste are also influenced by different downstream technology, i.e., the treatment after harvesting the vats. Mycoprotein produced by F. venenatum has, for example, been described as a pale yellow solid with a faint taste of mushrooms.

Allergies & Hypersensitivity

Hypersensitivity reactions caused by ingestion of mycoprotein is very rare, though it has previously occurred in people allergic to mold or other fungi. For most individuals, mycoprotein is safe to eat. The fact is that 72.4% of allergic reactions and 67.6% of the gastrointestinal reactions that have been reported after ingestion of a Quorn product occurred on an individual's first consumption of Quorn's products, which is an indication of cross-allergenicity with other antigens. There is, however, continual testing for concerns of allergic reactions, which can range from abdominal pain, nausea, and vomiting to severe asthmatic reactions, especially when crossed with inhaled mold spores.

A few but not all strains involved in mycoprotein production are known to produce mycotoxins in very low concentrations, amongst others some strains of F. venenatum, which in Quorn's case is prohibited by continuous testing every 6th production hour. Fusarium yellowstonensis, on the other hand, is an example of a strain that has been found to have low allergenic potential and no mycotoxins has been detectable.

Law, Legislation & Recognition

Although mycoprotein is considered a new generation of alternative protein, most microorganisms used to produce mycoprotein have been used for decades, some for centuries, and do not fall under the Novel Food Regulation in the European Union. Mycoprotein has been considered Generally Recognized as Safe (GRAS) by the Food and Drug Administration in the US since 2002.

However, looking across the globe, mycoprotein has still not been fully recognized as the sufficient protein source it is, despite its nutritional and sustainable benefits and advantages. An open access article was published in early 2022 on the topic of the lack of a global uniformity when it comes to Food-Based Dietary Guidelines (FBDG). The author, reviewed by Marlow Foods, points out that the global protein guidance tends to be dichotomous and exclusively focuses on comparing animal and plant proteins, resulting in alternative proteins, such as fungal proteins, being overlooked. Subsequently, the author calls for fungal protein to be included in the forthcoming EAT-Lancet 2.0 publication, due in 2024, and the Nordic Dietary Guidelines.

This article is certainly not the only call for acknowledgement of fungal protein. In 2022, several companies pioneering for food sustainability united to form a new trade association: The Fungi Protein Association (FPA). One of the purposes of the association is to united advocate for mycoprotein in public policy. The founding members of the association include previous mentioned companies such as Quorn, ENOUGH, Mycorena and Nature's Fynd, but also companies as The Better Meat Co. and Prime Roots. Two members of the FPA, Mycorena and Quorn, published in 2022 an open letter to urge the Nordic Nutrition Recommendations (NNR) committee to review their selection of recommended protein sources and recognize fungi-derived proteins in food-based dietary guidelines. The NNR committee responded by including fungi as a source of non-animal protein in their nutrition recommendations published in June 2023.

Environmental Impact

Several producers of mycoprotein have reported that production of mycoprotein has an environmental impact (including land-use, water consumption and carbon footprint) over 90% less than beef. Additionally, a study published in Nature 2022 found that replacing 20 percent of per-capita ruminant meat, such as beef, with fermentation derived microbial protein, such as mycoprotein, could cut global deforestation and carbon dioxide emissions by 50% in addition to lowering methane emissions. These numbers are under the assumption of consumer acceptance.

See also

References

  1. ^ Finnigan, Tim JA; Wall, Benjamin T; Wilde, Peter J; Stephens, Francis B; Taylor, Steve L; Freedman, Marjorie R (2019). "Mycoprotein: The Future of Nutritious Nonmeat Protein, a Symposium Review". Current Developments in Nutrition. 3 (6): nzz021. doi:10.1093/cdn/nzz021. PMC 6554455. PMID 31187084.
  2. Food and Drug Administration (2017). "Nutrition Information for Raw Vegetables". FDA. Retrieved 2023-12-20.
  3. ^ "Future of Fungi: Mycoprotein's Role as an Alternative Protein". Protein Directory. 2023-12-20. Retrieved 2023-12-20.
  4. Peberdy, John F. (1980), "Vegetative Growth of Filamentous Fungi", Developmental Microbiology, Boston, MA: Springer US, pp. 44–68, doi:10.1007/978-1-4613-3927-4_3 (inactive 1 November 2024), ISBN 978-1-4613-3929-8, retrieved 2023-12-20{{citation}}: CS1 maint: DOI inactive as of November 2024 (link)
  5. bishop. "Smarta sporer ska få fler att välja vego". Sweden Food Arena (in Swedish). Retrieved 2024-06-10.
  6. Yoder WT, Christianson LM (February 1998). "Species-specific primers resolve members of Fusarium section Fusarium. Taxonomic status of the edible "Quorn" fungus reevaluated". Fungal Genetics and Biology. 23 (1): 68–80. doi:10.1006/fgbi.1997.1027. PMID 9501478.
  7. ^ Wiebe MG (March 2002). "Myco-protein from Fusarium venenatum: a well-established product for human consumption". Applied Microbiology and Biotechnology. 58 (4): 421–427. doi:10.1007/s00253-002-0931-x. PMID 11954786. S2CID 206934191.
  8. ^ Derbyshire, Emma (2022-02-23). "Food-Based Dietary Guidelines and Protein Quality Definitions—Time to Move Forward and Encompass Mycoprotein?". Foods. 11 (5): 647. doi:10.3390/foods11050647. ISSN 2304-8158. PMC 8909067. PMID 35267280.
  9. Denny A, Aisbitt B, Lunn J (2008-12-01). "Mycoprotein and health". Nutrition Bulletin. 33 (4): 298–310. doi:10.1111/j.1467-3010.2008.00730.x. ISSN 1471-9827.
  10. ^ Miller, S; Dwyer, J (2001). "Evaluating the Safety and Nutritional Value of Mycoprotein". Food Technology. 55 (7): 42–45.
  11. Mayer Labba, Inger-Cecilia; Steinhausen, Hannah; Almius, Linnéa; Bach Knudsen, Knud Erik; Sandberg, Ann-Sofie (2022-09-21). "Nutritional Composition and Estimated Iron and Zinc Bioavailability of Meat Substitutes Available on the Swedish Market". Nutrients. 14 (19): 3903. doi:10.3390/nu14193903. ISSN 2072-6643. PMC 9571894. PMID 36235566.
  12. Williamson DA, Geiselman PJ, Lovejoy J, Greenway F, Volaufova J, Martin CK, et al. (January 2006). "Effects of consuming mycoprotein, tofu or chicken upon subsequent eating behaviour, hunger and safety". Appetite. 46 (1): 41–48. doi:10.1016/j.appet.2005.10.007. PMID 16364496. S2CID 25933762.
  13. Farsi DN, Gallegos JL, Koutsidis G, Nelson A, Finnigan TJ, Cheung W, et al. (April 2023). "Substituting meat for mycoprotein reduces genotoxicity and increases the abundance of beneficial microbes in the gut: Mycomeat, a randomised crossover control trial". European Journal of Nutrition. 62 (3): 1479–1492. doi:10.1007/s00394-023-03088-x. PMC 10030420. PMID 36651990.
  14. "GRAS Notice 904". Food and Drug Administration. Retrieved 2023-11-16.
  15. "What is meati whole cuts' star ingredient, MushroomRoot?". Retrieved 2023-09-27.
  16. Poinski, Megan (25 October 2022). "The Better Meat Co. patents mycelium it says 'does an even better job of mimicking' meat".
  17. Wiebe, M. (2002-03-01). "Myco-protein from Fusarium venenatum : a well-established product for human consumption". Applied Microbiology and Biotechnology. 58 (4): 421–427. doi:10.1007/s00253-002-0931-x. ISSN 0175-7598. PMID 11954786.
  18. ^ Hoff, Michael; Trüeb, Ralph M.; Ballmer-Weber, Barbara K.; Vieths, Stefan; Wuethrich, Brunello (2023). "Immediate-type hypersensitivity reaction to ingestion of mycoprotein (Quorn) in a patient allergic to molds caused by acidic ribosomal protein P2". Journal of Allergy and Clinical Immunology. 111 (5): 1106–1110. doi:10.1067/mai.2003.1339. PMID 12743577.
  19. Xing, Haiyan; Wang, Jianyong; Sun, Yuemei; Wang, Hongtian (2022-10-07). Batra, Lalit (ed.). "Recent Advances in the Allergic Cross-Reactivity between Fungi and Foods". Journal of Immunology Research. 2022: 1–10. doi:10.1155/2022/7583400. ISSN 2314-7156. PMC 9568318. PMID 36249419.
  20. Jacobson, Michael F.; DePorter, Janna (2018). "Self-reported adverse reactions associated with mycoprotein (Quorn-brand) containing foods". Annals of Allergy, Asthma & Immunology. 120 (6): 626–630. doi:10.1016/j.anai.2018.03.020. PMID 29567357.
  21. Van Durme, Paul; Ceuppens, Jan L.; Cadot, Pascal (2003). "Allergy to ingested mycoprotein in a patient with mold spore inhalant allergy". Journal of Allergy and Clinical Immunology. 112 (2): 452–454. doi:10.1067/mai.2003.1613. PMID 12897757.
  22. Furey, Brian; Slingerland, Kathleen; Bauter, Mark R.; Dunn, Celeste; Goodman, Richard E.; Koo, Sophia (2022). "Safety evaluation of Fy Protein™ (Nutritional Fungi Protein), a macroingredient for human consumption". Food and Chemical Toxicology. 166: 113005. doi:10.1016/j.fct.2022.113005. PMID 35636642.
  23. Lähteenmäki-Uutela, Anu; Rahikainen, Moona; Lonkila, Annika; Yang, Baoru (2021-12-01). "Alternative proteins and EU food law". Food Control. 130: 108336. doi:10.1016/j.foodcont.2021.108336. ISSN 0956-7135.
  24. "GRN No. 91". U.S. Food and Drug Administration. Retrieved 2024-01-08.
  25. "About EAT-Lancet 2.0". EAT. Retrieved 2024-01-17.
  26. ^ Nordic Nutrition Recommendations 2023 Integrating Environmental Aspects. Copenhagen: Nordic Council of Ministers. 2023.
  27. "All-Star List of Global Industry Leaders Unite to Form Fungi Protein Association - vegconomist - the vegan business magazine". Vegconomist. 2022-11-07. Retrieved 2023-12-20.
  28. Nair, R; Bertacca, M. "Dear Nordic Nutrition Recommendations Committee". LinkedIn. Retrieved 2023-12-20.
  29. "ENOUGH - delicious, nutritious, sustainable". ENOUGH - delicious, nutritious, sustainable. Retrieved 2023-12-20.
  30. Humpenöder, Florian; Bodirsky, Benjamin Leon; Weindl, Isabelle; Lotze-Campen, Hermann; Linder, Tomas; Popp, Alexander (2022-05-05). "Projected environmental benefits of replacing beef with microbial protein". Nature. 605 (7908): 90–96. Bibcode:2022Natur.605...90H. doi:10.1038/s41586-022-04629-w. ISSN 0028-0836. PMID 35508780.

Further reading

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