Monosodium Glutamate

Information about Monosodium Glutamate

This article is about monosodium glutamate as a food additive. For an overview of the chemistry of glutamic acid, see glutamic acid.

Monosodium glutamate

IUPAC name	sodium (2S)-2-amino-5-hydroxy-5-oxo-pentanoate
Identifiers
CAS number	142-47-2
PubChem	85314
SMILES	C(CC(=O)O)C(C(=O)O-)N.[Na+]
Properties
Molecular formula	C₅H₈NNaO₄
Molar mass	169.111
Appearance	white crystalline powder
Melting point	225?
Solubility in water	very soluble in water
Except where noted otherwise, data are given for materials in their standard state (at 25 C, 100 kPa)

Crystalline MSG

Monosodium glutamate, sodium glutamate, flavour enhancer 621, EU food additive code: E621, HS code: 29224220 (IUPAC name 2-aminopentanedioic acid. Also known as 2-aminoglutaric acid), commonly known as MSG, Ajinomoto, Vetsin, or Accent, is a sodium salt of glutamic acid. MSG is a food additive, popularly marketed as a "flavour enhancer".

Although traditional Asian cuisine uses flavour-enhancing ingredients which contain high concentrations of MSG, it was not isolated until 1907. MSG was subsequently patented by the Japanese Ajinomoto Corporation in 1909. In its pure form, it appears as a white crystalline powder; when dissolved in water (or saliva) it rapidly dissociates into sodium cations and glutamate anions (glutamate is the anionic form of glutamic acid, a naturally occurring amino acid).

Chemical properties

Under normal SATP conditions, MSG is a generally stable compound, and it is incompatible with strong oxidizing agents. Two chiral enantiomer isomers exist for monosodium glutamate, but only the naturally-occurring L-glutamate form is used as a flavour enhancer.

Umami

MSG stimulates specific receptors located in taste buds such as the amino acid receptor T1R1/T1R3 or other glutamate receptors like the metabotropic receptors (mGluR4 and mGluR1) which induce the taste known as umami, one of the five basic tastes (the word umami is a loanword from Japanese; it is also referred to as "savoury" or "meaty").

Discovery

Although they occur naturally in many foods, the flavour contributions made by glutamate and other amino acids were only scientifically identified early in the twentieth century. The substance was discovered and identified in the year 1866, by the German chemist Karl Heinrich Leopold Ritthausen. In 1907 Japanese researcher Kikunae Ikeda of the Tokyo Imperial University identified brown crystals left behind after the evaporation of a large amount of kombu broth as glutamic acid. These crystals, when tasted, reproduced the ineffable but undeniable flavour he detected in many foods, most especially in seaweed. Professor Ikeda termed this flavour "umami." He then patented a method of mass-producing a crystalline form of glutamic acid, MSG.^[1]

Commercialization

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The Ajinomoto (味の素) company was formed to manufacture and market MSG in Japan; the name 'Ajinomoto' means "essence of taste". It was introduced to the United States in 1947 as Ac'cent flavor enhancer.

Modern commercial MSG is produced by fermentation^[2] of starch, sugar beets, sugar cane, or molasses. About 1.5 million metric tons were sold in 2001, with 4% annual growth expected.^[3] MSG is used commercially as a flavour enhancer. Once stereotypically associated with food in Chinese restaurants in America, it is now more often found in many of the most common food products consumed in the US:

most canned soups of the US food industry
most beef and chicken stocks of the US food industry
most flavored potato chip products of the US food industry
many other snack foods
many frozen dinners
almost all US-originated fast foods
instant meals such as the seasoning mixtures for instant noodles

Only the L-glutamate enantiomer has flavour-enhancing properties.^[4] Manufactured MSG contains over 99.6% of the naturally-predominant L-glutamate form, which is a higher proportion of L-glutamate than found in the free glutamate ions of naturally-occurring foods. Fermented products like soy sauce, steak sauce, and worcestershire sauce have comparable levels of glutamate as foods with added MSG. However, glutamate in these brewed products may be composed 5% or more of the D-enantiomer.^[4]

Sources of glutamate

Natural Occurrence

Glutamate itself is a widespread amino acid: it is found naturally in human bodies, and is found primarily in the bound form in protein-containing foods, such as mushrooms, seaweed, tomatoes, nuts, legumes, meats, and most dairy products. Only a fraction of the glutamate in foods is in a "free" form, and only free glutamate can enhance the flavour of foods. Part of the flavour-enhancing effect of tomatoes, fermented soy products, yeast extracts, certain sharp cheeses, and fermented or hydrolyzed protein products (such as soy sauce and soy bean paste) is due to the presence of free glutamate ions.

Asian cuisine originally used a natural seaweed broth, such as kelp, to bring up the umami taste in soups. Manufacturers, such as Ajinomoto, use selected strains of Micrococcus glutamicus bacteria in a bath of nutrient. The bacteria are selected for their ability to excrete glutamic acid, which is then separated from the nutrient bath and made into its sodium salt, monosodium glutamate.

Other Sources

Hydrolyzed proteins, or protein hydrolysates, are acid- or enzymatically treated proteins from certain foods. They contain salts of free amino acids, such as glutamate, at levels of 5 to 20 percent. Hydrolyzed proteins are used in the same manner as MSG in many foods, such as canned vegetables, soups, and processed meats.

Approximate Quantities in Food

The following table illustrates the glutamate content of some selected common foods, in milligrams of glutamate per hundred grams of food. Free glutamate is metabolized differently from glutamate bound in protein, so they are listed separately. ^[5]

Food	Free glutamate (mg/100g)	Bound glutamate (mg/100g)
Chinese soy sauce	1090
Japanese soy sauce	782
Roquefort cheese	1280
parmesan cheese	1200	9847
grape juice	258
tomatoes	140	238
peas	200	5583
corn	130	1765
cow milk	2	819
human milk	22	229
eggs	23	1583
chicken	44	3309
duck	69	3636
beef	33	2846
pork	23	2325
salmon	20	2216
vegemite	1431
marmite	1960

Health Concerns

In 1959, the FDA classified MSG as a "generally recognized as safe", or GRAS, substance. This action stemmed from the 1958 Food Additives Amendment to the Federal Food, Drug, and Cosmetic Act, which required premarket approval for new food additives and led the FDA to promulgate regulations listing substances, such as MSG, which have a history of safe use or are otherwise GRAS. Since 1970, FDA has sponsored extensive reviews on the safety of MSG, other glutamates and hydrolyzed proteins, as part of an ongoing review of safety data on GRAS substances used in processed foods. One such review was by the Federation of American Societies for Experimental Biology (FASEB) Select Committee on GRAS Substances. In 1980, the committee concluded that MSG was safe at current levels of use but recommended additional evaluation to determine MSG's safety at significantly higher levels of consumption. Additional reports attempted to look at this. In 1986, FDA's Advisory Committee on Hypersensitivity to Food Constituents concluded that MSG poses no threat to the general public but that reactions of brief duration might occur in some people. Other reports have given the following findings:

The 1987 Joint Expert Committee on Food Additives of the United Nations Food and Agriculture Organization and the World Health Organization placed MSG in the safest category of food ingredients.
A 1991 report by the European Community's (EC) Scientific Committee for Foods reaffirmed MSG's safety and classified its "acceptable daily intake" as "not specified", the most favourable designation for a food ingredient. In addition, the EC Committee said, "Infants, including prematures, have been shown to metabolize glutamate as efficiently as adults and therefore do not display any special susceptibility to elevated oral intakes of glutamate."
A 1992 report from the Council on Scientific Affairs of the American Medical Association stated that glutamate in any form has not been shown to be a "significant health hazard".
A 1995 FDA-commissioned report acknowledged that "An unknown percentage of the population may react to MSG and develop MSG symptom complex, a condition characterized by one or more of the following symptoms:
burning sensation in the back of the neck, forearms and chest
numbness in the back of the neck, radiating to the arms and back
tingling, warmth and weakness in the face, temples, upper back, neck and arms
facial pressure or tightness
chest pain
headache
nausea
rapid heartbeat
bronchospasm (difficulty breathing)
drowsiness
weakness."^[6]
A 2002 report from researchers at Hirosaki University in Japan found rats fed on diets high in MSG suffered eye damage. Lead researcher Hiroshi Ohguro said the findings might explain why, in eastern Asia, there is a high rate of normal-tension glaucoma.^[7]

Issues surrounding these health implications of MSG consumption are the subject of much debate. A considerable body of anecdotal evidence exists suggesting negative health effects, but this has not yet been supported by recognised research.

In April 1968, Dr Ho Man Kwok wrote an article for the New England Journal of Medicine where he said, "I have experienced a strange syndrome whenever I have eaten out in a Chinese restaurant, especially one that served northern Chinese food. The syndrome, which usually begins 15 to 20 minutes after I have eaten the first dish, lasts for about two hours, without hangover effect. The most prominent symptoms are numbness at the back of the neck, gradually radiating to both arms and the back, general weakness and palpitations...". This comment began a global health scare about MSG and "Chinese restaurant syndrome" was born. Considerable research has failed to find any syndrome related to MSG (or in fact any negative health effects at all), and Chinese restaurant syndrome is largely resigned to urban legend status. However, the damage was done, and MSG is still thought of as suspect by a large proportion of the general public, and many foods continue to be labelled "MSG free". ^[8]

Excitotoxicity

Because MSG is absorbed very quickly in the gastrointestinal tract (unlike glutamic acid-containing proteins in foods), MSG could spike blood plasma levels of glutamate.^[9]^[10]^[11] Glutamic acid is in a class of chemicals known as excitotoxins, high levels of which have been shown in animal studies to cause damage to areas of the brain unprotected by the blood-brain barrier and that a variety of chronic diseases can arise out of this neurotoxicity.^[12]^[13] The debate among scientists on the significance of these findings has been raging since the early 1970s, when Dr. John Olney found that high levels of glutamic acid caused damage to the brains of infant mice.^[14] The debate is complex and has focused on several areas:

Whether the increase in plasma glutamate levels from typical ingestion levels of MSG is enough to cause neurotoxicity in one dose or over time.
Whether humans are susceptible to the neurotoxicity from glutamic acid seen in some animal experiments. It is known that the glutamate ion is important in memory retrieval in humans.
Whether neurotoxicity from excitotoxins is caused by the combined effect of glutamic acid and other excitotoxins such as aspartic acid from aspartame.

At a meeting of the Society for Neuroscience, the delegates had a split opinion on the issues related to neurotoxic effects from excitotoxic amino acids found in some additives such as MSG.^[15]

Some scientists believe that humans and other primates are not as susceptible to excitotoxins as rodents and therefore there is little concern with glutamic acid from MSG.^[16]^[17] While they agree that the combined effects of all food-based excitotoxins should be considered,^[18] their measurements of the blood plasma levels of glutamic acid after ingestion of monosodium glutamate and aspartame demonstrate that there is not a cause for concern.^[19] Other scientists feel that primates are susceptible to excitotoxic damage^[20] and that humans concentrate excitotoxins in the blood more than other animals.^[21] Based on these findings, they feel that humans are approximately 5-6 times more susceptible to the effects of excitotoxins than rodents are.^[22] While they agree that typical use of MSG does not spike glutamic acid to extremely high levels in adults, they are particularly concerned with potential effects in infants and young children^[23] and the potential long-term neurodegenerative effects of small-to-moderate spikes on plasma excitotoxin levels.^[24]

Obesity

Monosodium glutamate has been shown to indirectly cause obesity in lab rats by downregulating hypothalamic appetite suppression and, thus, increasing the amount of food the lab rats consumed. Animal research compels some researchers to theorize that MSG has a role in the occurrence of obesity in humans.^[25]

However, a similar effect has not yet been observed in humans. An epidemiological survey of 4938 ethnically Japanese men drawn from the Honolulu heart program in Hawaii found that self-reported dietary MSG consumption was not statistically linked with obesity.^[26] Researchers furthermore found that MSG consumption at every meal was not statistically correlated to the participant's incidence of heart disease or stroke. Frequent MSG consumption also did not significantly affect blood sugar or serum cholesterol levels among the participants.

Ingredient listing

United States

Under current FDA regulations, when MSG is added to a food, it must be identified as "monosodium glutamate" in the label's ingredient list. If however MSG is part of a spice mix that is purchased by another company, the manufacturer does not have to list the ingredients of that spice mix and may use the words "flavorings" or "spices". Even food that uses the "no msg" label may therefore have MSG that is added from a spice mix from another company under current FDA regulations.

Also, MSG is only one of several forms of free glutamate used in foods. The free glutamic acid component of MSG may also be present in a wide variety of other additives, including: hydrolyzed vegetable proteins, autolyzed yeast, hydrolyzed yeast, yeast extract, soy extracts, protein isolate, "spices" and "natural flavorings."

For this reason, FDA considers labels such as "No MSG" or "No Added MSG" to be misleading if the food contains ingredients that are sources of free glutamate, such as hydrolyzed protein.^[6]

In 1993, FDA proposed adding the phrase "(contains glutamate)" to the common or usual names of certain protein hydrolysates that contain substantial amounts of glutamate.^[6] For example, if the proposal were adopted, hydrolyzed soy protein would have to be declared on food labels as "hydrolyzed soy protein (contains glutamate)."

In 1994, FDA received a citizen's petition requesting changes in labelling requirements for foods that contain MSG or related substances.^[6] The petition asks for mandatory listing of MSG as an ingredient on labels of manufactured and processed foods that contain manufactured free glutamic acid. It further asks that the amount of free glutamic acid or MSG in such products be stated on the label, along with a warning that MSG may be harmful to certain groups of people. FDA has not yet taken action on the petition.

Australia and New Zealand

Standard 1.2.4 of the Australia New Zealand Food Standards Code requires the presence of MSG as a food additive to be labelled. The label must bear the food additive class name (eg. flavour enhancer), followed by either the name of the food additive (eg MSG) or its International Numbering System (INS) number (eg 621)

References

Jordan Sand, "A Short History of MSG: Good Science, Bad Science, and Taste Cultures", Gastronomica 5:4 (Fall 2005). History of MSG and its marketing in Japan, Taiwan (under the Japanese), China, and the U.S.
Federal Register, Dec. 4, 1992 (FR 57467)
Federal Register, Jan. 6, 1993 (FR 2950)
FDA Consumer, December 1993, "Food Allergies: When Eating is Risky."

Notes

1. ^ http://www.jpo.go.jp/seido_e/rekishi_e/kikunae_ikeda.htm
2. ^ http://www.ajinomoto.com/amino/eng/product.html
3. ^ http://www.ajinomoto.co.jp/ajinomoto/A-Company/company/zaimu/pdf/fact/food_biz.pdf
4. ^ Kimber L. Rundlett, Dr. Daniel W. Armstrong (1994). "Evaluation of free D-glutamate in processed foods". Chirality 6 (4): 277-282.
5. ^ Sodium Glutamate: A Safety Assessment, www.foodstandards.gov.au
6. ^ U. S. Department of Health and Human Services, U. S. Food and Drug Administration, "FDA and Monosodium Glutamate (MSG)," August 31, 1995
7. ^ [1]
8. ^ [2]
9. ^ Stegink LD, Filer LJ Jr, Baker GL (1985). "Plasma glutamate concentrations in adult subjects ingesting monosodium L-glutamate in consomme". American Journal of Clinical Nutrition 42: 220–225.
10. ^ Stegink LD, Filer LJ Jr, Baker GL (1987). "Plasma amino acid concentrations in normal adults ingesting aspartame and monosodium L-glutamate as part of a soup/beverage meal". Metabolism 36 (11): 1073–1079.
11. ^ Himwich WA, Petersen IM (1954). "Ingested sodium glutamate and plasma levels of glutamic acid". Journal of Applied Physiology 7 (2): 196–199.
12. ^ Meldrum B. (1993). "Amino acids as dietary excitotoxins: a contribution to understanding neurodegenerative disorders". Brain research. Brain research reviews 18 (3): 293–314.
13. ^ Nemeroff, C. (1980). "Monosodium Glutamate-Induced Neurotoxicity: Review of the Literature and Call for Further Research". Nutrition & Behavior edited by Sanford A. Miller (U.S. Food & Drug Administration): 177–211.
14. ^ Olney JW, Ho OL (1970). "Brain damage in infant mice following oral intake of glutamate, aspartate or cysteine". Nature 227 (5258): 609–611.
15. ^ Barinaga, M. (1990). "Amino Acids: How Much Excitement is Too Much?". Science 247 (4938): 20–22.
16. ^ Abraham R, Swart J, Golberg L, Coulston F. (1975). "Electron microscopic observations of hypothalami in neonatal rhesus monkeys (Macaca mulatta) after administration of monosodium-L-glutamate". Experimental and molecular pathology 23 (2): 203–213.
17. ^ Reynolds WA, Butler V, Lemkey-Johnston N (1976). "Hypothalamic morphology following ingestion of aspartame or MSG in the neonatal rodent and primate: a preliminary report". Journal of Toxicology and Environmental Health 2 (2): 471–480.
18. ^ Stegink LD, Filer LJ Jr, Baker GL (1982). "Effect of aspartame plus monosodium L-glutamate ingestion on plasma and erythrocyte amino acid levels in normal adult subjects fed a high protein meal". American Journal of Clinical Nutrition 36 (6): 1145–1152.
19. ^ Stegink LD, Filer LJ Jr, Baker GL (1982). "Plasma and erythrocyte amino acid levels in normal adult subjects fed a high protein meal with and without added monosodium glutamate". Journal of Nutrition 112 (10): 1953–1160.
20. ^ Olney JW, Sharpe LG, Feigin RD (1972). "Glutamate-induced brain damage in infant primates". Journal of Neuropathology and Experimental Neurology 31 (3): 464–488.
21. ^ Stegink LD, et al. (1978). "Comparative Metabolism of Glutamate in the Mouse, Monkey, and Man". Glutamic Acid: Advances in Biochemistry and Physiology (Edited: Filer LJ): 85–102. See: [3] ..
22. ^ Olney JW (1984). "Excitotoxic food additives — relevance of animal studies to human safety". Neurobehavioral toxicology and teratology 6 (6): 455–462.
23. ^ Olney JW (1990). "Excitotoxin-mediated neuron death in youth and old age". Progress in brain research 86: 37–51.
24. ^ Olney JW (1994). "Excitotoxins in foods". Neurobehavioral toxicology and teratology 15 (3): 535–544.
25. ^ Hermanussen M, Garcia AP, Sunder M, Voigt M, Salazar V, Tresguerres JA. (2006). "Obesity, voracity, and short stature: the impact of glutamate on the regulation of appetite.". Eur J Clin Nutr. 60 (1): 25-31. PMID 16132059.
26. ^ Go G, Nakamura FH, Rhoads GG, Dickinson LE. (1973). "Long-term health effects of dietary monosodium glutamate.". Hawaii Med J. 32 (1): 13-7. PMID 4689313.

External links

Glutamic acid or glutamate (abbreviated as Glu or E; Glx or Z represents either glutamic acid or glutamine), is the protonated form of glutamate (the anion). Glutamate is one of the 20 proteinogenic amino acids.
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IUPAC nomenclature is a system of naming chemical compounds and of describing the science of chemistry in general. It is developed and kept up to date under the auspices of the International Union of Pure and Applied Chemistry (IUPAC).
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The simplified molecular input line entry specification or SMILES
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A chemical formula is a concise way of expressing information about the atoms that constitute a particular chemical compound. A chemical formula is also a short way of showing how a chemical reaction occurs.
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Molar mass, symbol M,^[1] is the mass of one mole of a substance (chemical element or chemical compound).^[2] It is a physical property which is characteristic of each pure substance.
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The melting point of a crystalline solid is the temperature range at which it changes state from solid to liquid. Although the phrase would suggest a specific temperature and is commonly and incorrectly used as such in most textbooks and literature, most crystalline compounds
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Solubility is a physical property referring to the ability for a given substance, the solute, to dissolve in a solvent.^[1] It is measured in terms of the maximum amount of solute dissolved in a solvent at equilibrium. The resulting solution is called a saturated solution.
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Water is a common chemical substance that is essential to all known forms of life.^[1] In typical usage, water refers only to its liquid form or state, but the substance also has a solid state, ice, and a gaseous state, water vapor.
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standard state of a material is its state at 1 bar (100 kilopascals exactly). This pressure was changed from 1 atm (101.325 kilopascals) by IUPAC in 1990.^[1] The standard state of a material can be defined at any given temperature, most commonly 25 degrees Celsius,
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E numbers are codes for food additives and are usually found on food labels throughout the European Union. The numbering scheme follows that of the International Numbering System (INS) as determined by the Codex Alimentarius committee.
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The International Union of Pure and Applied Chemistry (IUPAC) (IPA: [aɪ ju pæk]) is an international non-governmental organization established in 1919 devoted to the advancement of chemistry.
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Salt is a mineral essential for animal life, composed primarily of sodium chloride. Salt for human consumption is produced in different forms: unrefined salt (such as sea salt), refined salt (table salt), and iodized salt.
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Food additives are substances added to food to preserve flavor or improve its taste and appearance. Some additives have been used for centuries; for example, preserving food by pickling (with vinegar), salting, as with bacon, preserving sweets or using sulfur dioxide as in some
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Main article: Flavor

Flavour enhancers are commonly added to commercially produced food products (eg. frozen dinners, instant soups, snackfoods) to make them taste more 'savoury'.
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Ajinomoto Co., Inc. (味の素株式会社
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Sodium (IPA: /ˈsəʊdiəm/) is a chemical element which has the symbol Na (Latin: natrium), atomic number 11, atomic mass 22.9898 g/mol, common oxidation number +1.
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In chemistry and other sciences, STP or standard temperature and pressure is a standard set of conditions for experimental measurements, to enable comparisons to be made between sets of data.
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The term chiral (pronounced /ˈkaɪɹ(ə)l̩/) is used to describe an object that is non-superimposable on its mirror image. In terms of chemistry, such objects are usually molecules.
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In chemistry, enantiomers (from the Greek ἐνάντιος, opposite, and μέρος, part or portion) are stereoisomers that are nonsuperimposable complete mirror images of each other, much as one's left and right hands
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Taste buds are small structures on the upper surface of the tongue, soft palate, and epiglottis that provide information about the taste of food being eaten.

The human tongue has about 10,000 taste buds.
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amino acid is a molecule that contains both amine and carboxyl functional groups. In biochemistry, this term refers to alpha-amino acids with the general formula H₂NCHRCOOH, where R is an organic substituent.
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glutamate receptors located on neuron membranes, and is an example of a transmembrane receptor.

Function

Glutamate is the most prominent neurotransmitter in the body,^[1] being present in over 50% of nervous tissue.
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For the record label, see .

Umami (Japanese: 旨み、旨味、うまみ) is one of the five basic tastes sensed by specialized receptor cells present on the human tongue.
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basic tastes are those commonly recognized types of taste sensed by humans. Humans receive tastes through sensory organs called taste buds or gustatory calyculi, concentrated on the upper surface of the tongue.
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