Use
Pure MSG is reported to not have a highly pleasant taste until it is combined with a savory aroma. The basic sensory function of MSG is attributed to its ability to enhance savory taste-active compounds when added in the proper concentration. The optimal concentration varies by food; in clear soup, the "pleasure score" rapidly falls with the addition of more than one gram of MSG per 100 mL. The sodium content (in mass percent) of MSG, 12.28%, is about one-third of that in sodium chloride (39.34%), due to the greater mass of the glutamate counterion. Although other salts of glutamate have been used in low-salt soups, they are less palatable than MSG. Food scientist Steve Witherly noted in 2017 that MSG may promote healthy eating by enhancing the flavor of food such as kale while reducing the use of salt. The ribonucleotide food additives disodium inosinate (E631) and disodium guanylate (E627), as well as conventional salt are usually used with monosodium glutamate-containing ingredients as they seem to have a synergistic effect. "Super salt" is a mixture of 9 parts salt, to one part MSG and 0.1 parts disodium inosinate and disodium guanylate.Safety
MSG is generally recognized as safe to eat. A popular belief is that MSG can cause headaches and other feelings of discomfort, but Blinded experiment, blinded tests have not provided strong evidence of this. International bodies governing food additives currently consider MSG safe for human consumption as a flavor enhancer. Under normal conditions, humans can metabolize relatively large quantities of glutamate, which is naturally produced in the gut in the course of protein hydrolysis. The median lethal dose (LD50) is between 15 and 18 g/kg body weight in rats and mice, respectively, five times the LD50 of salt, sodium chloride (3 g/kg in rats). The use of MSG as a food additive and the natural levels of glutamic acid in foods are not of toxic concern in humans. Specifically MSG in the diet does not increase glutamate in the brain or affect brain function. A 1995 report from the Federation of American Societies for Experimental Biology (FASEB) for the United States Food and Drug Administration (FDA) concluded that MSG is safe when "eaten at customary levels" and, although a subgroup of otherwise-healthy individuals develop an MSG symptom complex when exposed to 3 g of MSG in the absence of food, MSG as a cause has not been established because the symptom reports are anecdotal. According to the report, no data supports the role of glutamate in chronic disease. High quality evidence has failed to demonstrate a relationship between the MSG symptom complex and actual MSG consumption. No association has been demonstrated, and the few responses were inconsistent. No symptoms were observed when MSG was used in food. Adequately controlling for experimental bias includes a blinded, placebo-controlled experimental design and administration by capsule, because of the unique aftertaste of glutamates. In a 1993 study, 71 fasting participants were given 5 g of MSG and then a standard breakfast. One reaction (to the placebo, in a self-identified MSG-sensitive individual) occurred. A 2000 study tested the reaction of 130 subjects with a reported sensitivity to MSG. Multiple trials were performed, with subjects exhibiting at least two symptoms continuing. Two people out of the 130 responded to all four challenges. Because of the low prevalence, the researchers concluded that a response to MSG was not reproducible. Studies exploring MSG's role in obesity have yielded mixed results. Although several studies have investigated anecdotal links between MSG and asthma, current evidence does not support a causal association. Food Standards Australia New Zealand (FSANZ) MSG technical report concludes,"There is no convincing evidence that MSG is a significant factor in causing systemic reactions resulting in severe illness or mortality. The studies conducted to date on Chinese restaurant syndrome (CRS) have largely failed to demonstrate a causal association with MSG. Symptoms resembling those of CRS may be provoked in a clinical setting in small numbers of individuals by the administration of large doses of MSG without food. However, such effects are neither persistent nor serious and are likely to be attenuated when MSG is consumed with food. In terms of more serious adverse effects such as the triggering of bronchospasm in asthmatic individuals, the evidence does not indicate that MSG is a significant trigger factor."However, the FSANZ MSG report says that although no data is available on average MSG consumption in Australia and New Zealand, "data from the United Kingdom indicates an average intake of 590 mg/day, with extreme users (97.5th percentile consumers) consuming 2,330 mg/day" (Rhodes et al. 1991). In a highly seasoned restaurant meal, intakes as high as 5,000 mg or more may be possible (Yang et al. 1997). When very large doses of MSG (>5 g MSG in a Bolus (medicine), bolus dose) are ingested, plasma glutamate concentration will significantly increase. However, the concentration typically returns to normal within two hours. In general, foods providing metabolizable carbohydrate significantly attenuate peak plasma glutamate levels at doses up to 150 mg/kg body weight. Two earlier studiesthe 1987 Joint FAO/World Health Organization, WHO Expert Committee on Food Additives (JECFA) and the 1995 Federation of American Societies for Experimental Biology (FASEB)concluded, "there may be a small number of unstable asthmatics who respond to doses of 1.5–2.5 g of MSG in the absence of food". The FASEB evaluation concluded, "sufficient evidence exists to indicate some individuals may experience manifestations of CRS when exposed to a ≥3 g bolus dose of MSG in the absence of food". A recent report in Toxicology Reports claims that a MSG mixed High Lipid Diet leads to dyslipidemia, silently developing non-alcoholic fatty liver disease followed by metabolic alterations and systemic anomalies, even malignancies, via modulating different signaling pathways.
Production
MSG has been produced by three methods: hydrolysis of vegetable proteins with hydrochloric acid to disrupt peptide bonds (1909–1962); direct chemical synthesis with acrylonitrile (1962–1973), and bacterial fermentation (the current method). Wheat gluten (food), Wheat gluten was originally used for hydrolysis because it contains more than 30 g of glutamate and glutamine in 100 g of protein. As demand for MSG increased, chemical synthesis and fermentation were studied. The polyacrylic acid, polyacrylic fiber industry began in Japan during the mid-1950s, and acrylonitrile was adopted as a base material to synthesize MSG. As of 2016, most MSG worldwide is produced by Fermentation, bacterial fermentation in a process similar to making vinegar or yogurt. Sodium is added later, for neutralization. During fermentation, ''Corynebacterium'' species, cultured with ammonia and carbohydrates from sugar beets, sugarcane, tapioca or molasses, excrete amino acids into a culture broth from which L-glutamate is isolated. The Kyowa Hakko Kogyo Company developed industrial fermentation to produce L-glutamate. The conversion yield and production rate (from sugars to glutamate) continues to improve in the industrial production of MSG, keeping up with demand. The product, after filtration, concentration, acidification, and crystallization, is glutamate, sodium, and water.Chemical properties
The compound is usually available as the water of hydration, monohydrate, a white, odorless, crystalline powder. The solid contains separate sodium cations and glutamate anions in zwitterionic form, −OOC-CH()-()2-COO−. In solution it dissociation (chemistry), dissociates into glutamate and sodium ions. MSG is freely soluble in water, but it is not hygroscopy, hygroscopic and is insoluble in common organic solvents (such as Diethyl ether, ether). It is generally stable under food-processing conditions. MSG does not break down during cooking and, like other amino acids, will exhibit a Maillard reaction (browning) in the presence of sugars at very high temperatures.History
Glutamic acid was discovered and identified in 1866 by the German chemist Karl Heinrich Ritthausen, who treated wheat gluten (for which it was named) with sulfuric acid. Kikunae Ikeda of University of Tokyo, Tokyo Imperial University isolated glutamic acid as a taste substance in 1908 from the seaweed ''Saccharina japonica, Laminaria japonica'' (''kombu'') by aqueous extraction and crystallization, calling its taste ''umami'' ("pleasant savory taste"). Ikeda noticed that ''dashi'', the Japanese broth of ''katsuobushi'' and ''kombu'', had a unique taste not yet scientifically described (not sweet, salty, sour, or bitter). To determine which glutamate could result in the taste of ''umami'', he studied the taste properties of numerous glutamate salts such as calcium, potassium, ammonium, and magnesium glutamate. Of these salts, monosodium glutamate was the most soluble and palatable, as well as the easiest to crystallize. Ikeda called his product "monosodium glutamate" and submitted a patent to produce MSG;Ikeda K (1908). "A production method of seasoning mainly consists of salt of L-glutamic acid". ''Japanese Patent'' 14804. the Suzuki brothers began commercial production of MSG in 1909 using the term Ajinomoto ("essence of taste").Society and culture
Regulations
United States
MSG is one of several forms of glutamic acid found in foods, in large part because glutamic acid (an amino acid) is pervasive in nature. Glutamic acid and its salts may be present in a variety of other additives, including hydrolyzed vegetable protein, autolyzed yeast, hydrolyzed yeast, yeast extract, soy extracts, and protein isolate, which must be specifically labeled. Since 1998, MSG cannot be included in the term "spices and flavorings". However, the term "natural flavor" is used by the food industry for glutamic acid (chemically similar to MSG, lacking only the sodium ion). The Food and Drug Administration (FDA) does not require disclosure of components and amounts of "natural flavor."Australia and New Zealand
Standard 1.2.4 of the Australia and New Zealand Food Standards Code requires MSG to be labeled in packaged foods. The label must have the food-additive class name (e.g. "flavour enhancer"), followed by the name of the additive ("MSG") or its International Numbering System (INS) number, 621.Pakistan
The Punjab Food Authority banned Ajinomoto, commonly known as Chinese salt, which contains MSG, from being used in food products in the Punjab, Pakistan, Punjab Province of Pakistan in January 2018.Names
The following are alternative names for MSG: * Chemical names and identifiers ** Monosodium glutamate or sodium glutamate ** Sodium 2-aminopentanedioate ** Glutamic acid, monosodium salt, monohydrate ** L-Glutamic acid, monosodium salt, monohydrate ** L-Monosodium glutamate monohydrate ** Monosodium L-glutamate monohydrate ** MSG monohydrate ** Sodium glutamate monohydrate ** UNII-W81N5U6R6U ** Flavour enhancer E621 * Trade names ** Accent, produced by B&G Foods Inc., Parsippany, New Jersey, US ** Aji-No-Moto, produced by Ajinomoto, 26 countries, head office Japan ** Tasting Powder ** Ve-Tsin by Tien Chu Ve-Tsin ** Sazón, distributed by Goya Foods, Jersey City, NJStigma in Western countries
Origin
A controversy surrounding the safety of MSG began on 4 April 1968, when Dr. Robert Ho Man Kwok wrote a letter to the ''New England Journal of Medicine'', coining the term "Chinese restaurant syndrome". In his letter, Kwok suggested several possible causes before he nominated MSG for his symptoms. This letter was initially met with insider satirical responses, some using race as prop for humorous effect, within the medical community. Some claimed that during the discursive uptake in media, the conversations were recontextualized as legitimate while the supposed race-based motivations of the humor were not parsed. Thirty years after the Chinese restaurant syndrome was debunked, stigmas about MSG persist. In January 2018, Dr. Howard Steel claimed that the letter was actually a prank submission by him under the pseudonym Ho Man Kwok. However, there was a Dr. Robert Ho Man Kwok who worked at the National Biomedical Research Foundation, both names Steel claimed to have invented. Kwok's children, his colleague at the research foundation, and the son of his boss there confirmed that Dr. Robert Ho Man Kwok, who had died in 2014, wrote this letter. After hearing about Kwok's family, Steel's daughter Anna came to believe this claim itself was one of the last pranks by her late father.Reactions
Researchers, doctors, and activists have tied the controversy about MSG to xenophobia and racism against Chinese culture, saying that East Asian cuisine is being targeted while the widespread use of MSG in other processed food hasn't been stigmatized. These activists have claimed that the perpetuation of the negative image of MSG through the Chinese restaurant syndrome was caused by "xenophobic" or "racist" biases. Food historian Ian Mosby wrote that fear of MSG in Chinese food is part of the US's long history of viewing the "exotic" cuisine of Asia as dangerous and dirty. In 2016, Anthony Bourdain stated in Parts Unknown (TV series), Parts Unknown that "I think MSG is good stuff ... You know what causes Chinese restaurant syndrome? Racism". In 2020, Ajinomoto, the first corporation to mass-produce MSG for consumers and today its leading manufacturer, launched the #RedefineCRS campaign to combat what it said was the myth that MSG is harmful to people's health, saying it intended to highlight the xenophobic prejudice against East Asian cuisine and the scientific evidence. In 2021, Chinese List of Michelin 3-star restaurants#Hong Kong and Macau, Michelin 3-star chef Kwong Wai-keung said, "I tell my chefs if you know ingredients are not good, don't use them, because they can affect the customers' health. [...] We [at Langham Hospitality Group#Michelin-starred restaurants, T'ang Court] use chicken powder, not MSG. If you wouldn't eat it, then don't serve it to the guests."See also
References
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