Butyric acid

Butyric acid

Chembox new
ImageFile =Butyric-acid-2D-skeletal.png ImageName = Skeletal structure
ImageSize = 140 px
ImageFile1 = Butyric_acid_flat_structure.png ImageName1 = Flat structure
ImageSize1 = 160 px
ImageFile2 = Butyric-acid-3D-balls.png ImageName = Space filling model
ImageSize2 = 150px
IUPACName = Butanoic acid
Section1 = Chembox Identifiers
CASNo=107-92-6
PubChem=264
ChemSpiderID = 259
SMILES=CCCC(=O)O
MeSHName=Butyric+acid

Section2= Chembox Properties
Formula=C4H8O2
MolarMass=88.1051 g/mol
Appearance=
Density=0.96 g/mL
MeltingPt=-7.9 °C (265.1 K)
BoilingPt=163.5 °C (436.5 K)
Solubility=miscible

Section3= Chembox Hazards
MainHazards=Corrosive; Harmful to aquatic organisms
FlashPt=72 °C
Autoignition=452 °C
RPhrases = 34
SPhrases = 26 36 45
RSPhrases =
RTECS = ES5425000

Butyric acid (from Greek βούτυρος = "butter"), also known under the systematic name butanoic acid, is a carboxylic acid with the structural formula CH3CH2CH2-COOH. It is found in rancid butter, parmesan cheese, vomit, and body odor and has an unpleasant smell and acrid taste, with a sweetish aftertaste (similar to ether). Butyric acid can be detected by mammals with good scent detection abilities such as dogs at 10 ppb, whereas humans can detect it in concentrations above 10 ppm.

Chemistry

Butyric acid is a fatty acid occurring in the form of esters in animal fats and plant oils. The triglyceride of butyric acid makes up 3% to 4% of butter. When butter goes rancid, butyric acid is liberated from the glyceride by hydrolysis leading to the unpleasant odor. It is an important member of the fatty acid sub-group called short chain fatty acids. Butyric acid is a weak acid with a pKa of 4.82, similar to acetic acid which has pKa 4.76. [cite web|url=http://www.linkan.se/files/pdf/product_sheets/INVE/adimix_presentation.pdf|title=Adimix Sodium Butanoate information] The similar strength of these acids results from their common -CH2COOH terminal structure. [cite web|url=http://web.chem.ucla.edu/~harding/tutorials/acids_and_bases/pKa_table.html|title=Using the pKa table] Pure butyric acid is 10.9 molar.

The acid is an oily colorless liquid that is easily soluble in water, ethanol, and ether, and can be separated from an aqueous phase by saturation with saslts such as calcium chloride. Potassium dichromate and sulfuric acid oxidize it to carbon dioxide and acetic acid, while alkaline potassium permanganate oxidizes it to carbon dioxide. The calcium salt, Ca(C4H7O2)2·H2O, is less soluble in hot water than in cold.

Butyric acid has a structural isomer called isobutyric acid (2-methylpropanoic acid).

Production

It is industrially prepared by the fermentation of sugar or starch, brought about by the addition of putrefying cheese, with calcium carbonate added to neutralize the acids formed in the process. The butyric fermentation of starch is aided by the direct addition of "Bacillus subtilis". Salts and esters of the acid are called butanoates.

Butyric acid or fermentation butyric acid is also found as a hexyl ester (hexyl butanoate) in the oil of "Heracleum giganteum" (a type of cow parsnip) and as an octyl ester (octyl butanoate) in parsnip ("Pastinaca sativa"); it has also been noticed in the fluids of the flesh and in perspiration.

Uses

Butyric acid is used in the preparation of various butanoate esters. Low-molecular-weight esters of butyric acid, such as methyl butanoate, have mostly pleasant aromas or tastes. As a consequence, they find use as food and perfume additives. They are also used in organic laboratory courses, to teach the Fischer esterification reaction.

Biological functionality

Butanoate fermentation

Butanoate is produced as end-product of a fermentation process solely performed by obligate anaerobic bacteria. Fermented Kombucha "tea" includes butyric acid as a result of the fermentation. This fermentation pathway was discovered by Louis Pasteur in 1861. Examples of butanoate-producing species of bacteria:

* "Clostridium acetobutylicum"
* "Clostridium butyricum"
* "Clostridium kluyveri"
* "Clostridium pasteurianum"
* "Fusobacterium nucleatum"
* "Butyrivibrio fibrisolvens"
* "Eubacterium limosum"

The pathway starts with the glycolytic cleavage of glucose to two molecules of pyruvate, as happens in most organisms. Pyruvate is then oxidized into acetyl coenzyme A using a unique mechanism that involves an enzyme system called pyruvate-ferredoxin oxidoreductase. Two molecules of carbon dioxide (CO2) and two molecules of elemental hydrogen (H2) are formed as wastes products from the cell. Then:

ATP is produced, as can be seen, in the last step of the fermentation. Three molecules of ATP are produced for each glucose molecule, a relatively high yield. The balanced equation for this fermentation is:

C6H12O6 → C4H8O2 + 2CO2 + 2H2

Acetone and butanol fermentation

Several species form acetone and butanol in an alternative pathway, which starts as butyrate fermentation. Some of these species are:

* "Clostridium acetobutylicum": the most prominent acetone and butanol producer, used also in industry
* "Clostridium beijerinckii"
* "Clostridium tetanomorphum"
* "Clostridium aurantibutyricum"

These bacteria begin with butanoate fermentation as described above, but, when the pH drops below 5, they switch into butanol and acetone production in order to prevent further lowering of the pH. Two molecules of butanol are formed for each molecule of acetone.

The change in the pathway occurs after acetoacetyl CoA formation. This intermediate then takes two possible pathways:

* Acetoacetyl CoA → acetoacetate → acetone, or
* Acetoacetyl CoA → butyryl CoA → butanal → butanol.

Butyric acid function/activity

Highly-fermentable fibers like oat bran, pectin, and guar are transformed by colonic bacteria into short chain fatty acids including butyrate.

Butanoate has diverse and, it seems, paradoxical effects on cellular proliferation, apoptosis and differentiation that may be either pro-neoplastic or anti-neoplastic, depending upon factors such as the level of exposure, availability of other metabolic substrate, and the intracellular milieu. Butanoate is thought by some to be protective against colon cancer. However, not all studies support a chemopreventive effect, and the lack of agreement (particularly between in vivo and in vitro studies) on butyrate and colon cancer has been termed the "butyrate paradox." There are many reasons for this discrepant effect, including differences between the "in vitro" and "in vivo" environments, the timing of butanoate administration, the amount administered, the source (usually dietary fiber) as a potential confounder, and an interaction with dietary fat. Together, the studies suggest that the chemopreventive benefits of butanoate depend in part on amount, time of exposure with respect to the tumorigenic process, and the type of fat in the diet. [ [http://jn.nutrition.org/cgi/content/full/134/2/479 Microbial Degradation Products Influence Colon Cancer Risk: the Butyrate Controversy - Lupton 134 (2): 479 - Journal of Nutrition ] ] Low carbohydrate diets like the Atkins diet are known to reduce the amount of butanoate produced in the colon.

Butyric acid has been associated with the ability to inhibit the function of histone deacetylase enzymes, thereby favouring an acetylated state of histones in the cell. Acetylated histones have a lower affinity for DNA than non-acetylated histones, due to the neutralisation of electrostatic charge interactions. In general, it is thought that transcription factors will be unable to access regions where histones are tightly associated with DNA (ie non-acetylated, e.g., heterochromatin). Therefore, it is thought that butyric acid enhances the transcriptional activity at promoters, which are typically silenced/downregulated due to histone deacetylase activity.

References

See also

* Indole-3-butyric acid
* Acids in wine

External links

* [http://www.cdc.gov/niosh/ipcsneng/neng1334.html International Chemical Safety Card 1334]
* [http://jn.nutrition.org/cgi/content/full/134/2/479 2004 review of the scientific evidence on butanoate/butyrate vs. colon cancer]

"This article incorporates information from the 1911 encyclopedia."


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Look at other dictionaries:

  • Butyric acid — Butyric Bu*tyr ic, a. (Chem.) Pertaining to, or derived from, butter. [1913 Webster] {Butyric acid}, {C3H7.CO2H}, an acid found in butter; an oily, limpid fluid, having the smell of rancid butter, and an acrid taste, with a sweetish aftertaste,… …   The Collaborative International Dictionary of English

  • butyric acid — n. a colorless, strong smelling isomeric fatty acid, CH3CH2CH2COOH, found in rancid butter, perspiration, etc. and used to produce fragrances and flavors …   English World dictionary

  • butyric acid — Chem. either of two isomeric acids having the formula C4H8O2, esp. a rancid liquid occurring chiefly in spoiled butter, whose esters are used as flavorings. Also called butanoic acid. [1820 30] * * * ▪ chemical compound also called  butanoic… …   Universalium

  • butyric acid — An acid of unpleasant odor occurring in butter, cod liver oil, sweat, and many other substances. It exists in two forms: normal b. (also written as n b.), butanoic acid, which occurs in combination with glycerol in cow s butter; and isobutyric… …   Medical dictionary

  • butyric acid — noun a) Either of the two isomeric carboxylic acids, normal butyric acid and isobutyric acid, with the chemical formula CHCOOH, occurring in animal milk fat. b) Solely the straight chain isomer of the above, normal butyric acid or n butyric acid …   Wiktionary

  • butyric acid — sviesto rūgštis statusas T sritis chemija formulė H(CH₂)₃COOH atitikmenys: angl. butyric acid rus. масляная кислота ryšiai: sinonimas – butano rūgštis …   Chemijos terminų aiškinamasis žodynas

  • butyric acid fermentation — sviestarūgštis rūgimas statusas T sritis chemija apibrėžtis Anaerobinėmis sąlygomis vykstantis angliavandenių skilimas, kurio metu susidaro sviesto rūgštis. atitikmenys: angl. butyric acid fermentation rus. маслянокислое брожение …   Chemijos terminų aiškinamasis žodynas

  • butyric acid — [bju: tɪrɪk] noun Chemistry a syrupy liquid organic acid present in rancid butter and in arnica oil; butanoic acid. Origin C19: from L. butyrum (see butter) + ic …   English new terms dictionary

  • butyric acid — noun Date: 1826 either of two isomeric fatty acids C4H8O2; especially the straight chain acid of unpleasant odor normally found in perspiration and rancid butter …   New Collegiate Dictionary

  • butyric acid — (= CH3.CH2.CH2.COOH) Acid from which butyrate ion is derived. Smells of rancid butter, hence the name …   Dictionary of molecular biology

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