Difference between revisions of "Butyric Acid"
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− | '''Butyric Acid''' (chemical name '''butyrate''' <ref>[https://en.wikipedia.org/wiki/Butyrate Butyrate. Wikipedia. Retrieved 6/20/2015.]</ref>) is a carboxylic acid that is produced by anaerobic bacteria such as ''Clostridium butyricum'', ''C. kluyveri'', and ''Megasphaera spp'' <ref name="wikipedia">[http://en.wikipedia.org/wiki/Butyric_acid#Production Wikipedia description of Butyric Acid production]</ref> during glucose fermentation, and is generally considered an off flavor in sour beer. If not done right, [[Sour Mashing]] can be a big producer of butyric acid. Butyric acid is produced by anaerobic bacteria. The aroma and flavor is often described as a vomit, bile, or rancid cheese. It is also present in the human gut, and is the cause of the aroma of vomit <ref name="wikipedia"></ref>. This is not to be confused with [[Isovaleric Acid]] which has a more "feety" aroma and flavor. [[Brettanomyces]] can convert butyric acid into [[Ethyl Butyrate]] at low levels, which has a pineapple, tropical fruit aroma and flavor <ref>[http://www.brettanomycesproject.com/dissertation/pure-culture-fermentation/pure-culture-fermentation-discussion/ Chad Yakobson's Brettanomyces Dissertation]</ref>. Butyric acid has shown to have some health benefits in medical research <ref>[http://jmm.sgmjournals.org/content/59/2/141.full Van Immerseel F, Ducatelle R, De Vos M, Boon N, Van De Wiele T, Verbeke K, Rutgeerts P, Sas B, Louis P, Flint HJ. Butyric acid-producing anaerobic bacteria as a novel probiotic treatment approach for inflammatory bowel disease. J Med Microbiol 2010;59:141–3.]</ref>. | + | '''Butyric Acid''' (chemical name '''butyrate''' <ref>[https://en.wikipedia.org/wiki/Butyrate Butyrate. Wikipedia. Retrieved 6/20/2015.]</ref>) is a carboxylic acid that is produced by anaerobic bacteria such as ''Clostridium butyricum'', ''C. kluyveri'', and ''Megasphaera spp'' <ref name="wikipedia">[http://en.wikipedia.org/wiki/Butyric_acid#Production Wikipedia description of Butyric Acid production]</ref> during glucose fermentation, and is generally considered an off flavor in sour beer. If not done right, [[Sour Mashing]] can be a big producer of butyric acid. Butyric acid is produced by anaerobic bacteria. The aroma and flavor is often described as a vomit, bile, or rancid cheese. It is also present in the human gut, and is the cause of the aroma of vomit <ref name="wikipedia"></ref>. This is not to be confused with [[Isovaleric Acid]] which has a more "feety" aroma and flavor. [[Brettanomyces]] can convert butyric acid into [[Ethyl Butyrate]] at low levels, which has a pineapple, tropical fruit aroma and flavor <ref>[http://www.brettanomycesproject.com/dissertation/pure-culture-fermentation/pure-culture-fermentation-discussion/ Chad Yakobson's Brettanomyces Dissertation]</ref>. Butyric acid has shown to have some health benefits in medical research <ref>[http://jmm.sgmjournals.org/content/59/2/141.full Van Immerseel F, Ducatelle R, De Vos M, Boon N, Van De Wiele T, Verbeke K, Rutgeerts P, Sas B, Louis P, Flint HJ. Butyric acid-producing anaerobic bacteria as a novel probiotic treatment approach for inflammatory bowel disease. J Med Microbiol 2010;59:141–3.]</ref><ref>[http://iai.asm.org/content/8/1/30.full.pdf Effect of Colon Flora and Short-Chain Fatty Acids on Growth In Vitro of Pseudomonas aeruginosa and Enterobacteriaceae. MATTHEW E. LEVISON. 1973.]</ref>. |
==Microbes and Metabolism== | ==Microbes and Metabolism== |
Revision as of 10:12, 23 October 2015
Butyric Acid (chemical name butyrate [1]) is a carboxylic acid that is produced by anaerobic bacteria such as Clostridium butyricum, C. kluyveri, and Megasphaera spp [2] during glucose fermentation, and is generally considered an off flavor in sour beer. If not done right, Sour Mashing can be a big producer of butyric acid. Butyric acid is produced by anaerobic bacteria. The aroma and flavor is often described as a vomit, bile, or rancid cheese. It is also present in the human gut, and is the cause of the aroma of vomit [2]. This is not to be confused with Isovaleric Acid which has a more "feety" aroma and flavor. Brettanomyces can convert butyric acid into Ethyl Butyrate at low levels, which has a pineapple, tropical fruit aroma and flavor [3]. Butyric acid has shown to have some health benefits in medical research [4][5].
Contents
Microbes and Metabolism
Clostridium spp
Clostridium is a Gram-positive anaerobic genus of bacteria that is found in plants, wounds, soil, and feces. It has also been found in spent grains. Several species of the genus Clostridium produce butyric acid, and is produced in at least 3 days. Clostridium are generally obligatory anaerobes [6], but some can be active in aerobic conditions (aerotolerant), such as T. tertium. Species of Clostridium that can produce butyric acid from glucose include C. butyricum, C. fallax, C. paraputrificum, C. sartagoformum, C. tertium, C. thermosaccharolyticum, and to a lesser degree C. pasteurianum. [7]
Clostridium contamination in brewing methods such as Sour Mashing can be controlled by lowering the pH of the wort/mash. However, some species of Clostridium are acid tolerant. For example, C. butyricum and C. tertium were found to survive a pH as low as 4.0 [8][7]. Therefore, pre-acidifying during the Sour Mashing process to a pH of 3.9 or lower may produce the best results (brewers have long reported good results with acidifying their wort/mash to a pH of 4.4; this may be a function of greatly suppressing butyric acid bacteria, rather than eliminating it completely [9]). Fermentation by yeast also inhibits growth, probably due to out-competing the bacteria [7].
Temperature resistance varies from species to species of Clostridium. Most species have an optimal growth at around 104°F (37°C) [10]. However, C. thermosaccharolyticum can survive temperatures as hot as 149°F (65°C). Additionally, spores of some species of Clostridium (such as C. tertium) can survive boiling temperatures for longer than 1.5 hours [7].
Carbon dioxide from both fermentation and artificial introduction has been shown to have a stimulatory effect on the growth of Clostridium butyricum (as well as other bacteria such as E. coli) [11]. If sanitation issues allow for Clostridium to enter the brewery, CO2 purging may encourage butyric acid formation. Even so, many brewers recommend purging with CO2 during the souring phase of kettle souring to prevent other off-flavors [12] (~15 mins in). This might have the benefit of discouraging enteric bacteria from creating off-flavors in the wort.
Although C. botulinum and other identifiably pathogenic Clostridium species do not tend to grow in Sour Mashing conditions, it is advisable to not consume wort produced from a sour mash until after it is boiled. Seek specific food and safety advice from a qualified physician.
Megasphaera spp
Megasphaera species produce large amounts of butyric acid, as well as some acetic, isovaleric, valeric, and caproic acids. They are considered a true beer spoilage organism in beer. M. cerevisiae is a common species found in spoiled beer, and is a Gram-negative bacteria. They are obligate anaerobes, and die in the presence of oxygen. Growth occurs at a temperature range between 59°-98.6°F (15°-37°C), with an optimal growth rate at 82.4°F (28°C) [13]. Growth of M. cerevisiae cannot occur above 5.3% abv, and slows significantly at 2.66% abv. Growth also stops at a pH of 4.0 or less [14].
Fusobacterium nucleatum
F. nucleatum is a Gram-negative bacteria that is commonly found in dental plaque. It is capable of fermenting glucose into butyric acid, and is tolerant of up to 6% oxygen [15]. It has a optimal growth temperature at 98.6°F [16]. F. nucleatum is sensitive to a pH of 5.0 and lower, and temperatures above 140°F (60°C) [17]. Avoid contaminating wort with saliva, and this organism shouldn't be a problem.
Other Microbes
Other microbes that are butyric acid producers, probably won't be found in the brewhouse. These include bacteria that are commonly found in the guts of animals such as Butyrivibrio fibrisolvens [18] and Eubacterium limosum [19].
Metabolism
Clostridium species such as C. butyicum, C. lactoacetophilum, C. pasteurianum, etc. produce butyric acid and acetic acid via the butyric acid fermentation pathway. Some species of Clostridium, such as C. acetobutylicum also produce isopropanol or acetone. Carbon dioxide and ethanol are also produced during butyric acid fermentation, as well as butunol. [21]. Butanol is a solventy smelling alcohol [22].
See Also
Additional Articles on MTF Wiki
External Resources
References
- ↑ Butyrate. Wikipedia. Retrieved 6/20/2015.
- ↑ 2.0 2.1 Wikipedia description of Butyric Acid production
- ↑ Chad Yakobson's Brettanomyces Dissertation
- ↑ Van Immerseel F, Ducatelle R, De Vos M, Boon N, Van De Wiele T, Verbeke K, Rutgeerts P, Sas B, Louis P, Flint HJ. Butyric acid-producing anaerobic bacteria as a novel probiotic treatment approach for inflammatory bowel disease. J Med Microbiol 2010;59:141–3.
- ↑ Effect of Colon Flora and Short-Chain Fatty Acids on Growth In Vitro of Pseudomonas aeruginosa and Enterobacteriaceae. MATTHEW E. LEVISON. 1973.
- ↑ Chlostridium. MicrobeWiki. Retrieved 09/29/2015.
- ↑ 7.0 7.1 7.2 7.3 Butyric Acid Off-Flavors in Beer: Origins and Control. D. B. Hawthorne, R. D. Shaw, D. F. Davine, T. E. Kavanagh, and B. J. Clarke. 1991.
- ↑ Growth Limiting pH, Water Activity, and Temperature for Neurotoxigenic Strains of Clostridium butyricum. Hamid B. Ghoddusi, Richard E. Sherburn, and Olusimbo O. Aboaba. 2013.
- ↑ Conversation with Derek Springer and Malcom Frazer on MTF. 6/22/2015.
- ↑ Textbook of Microbiology & Immunology. Subhash Chandra Parija. 2nd Edition. Feb 10, 2014.
- ↑ Gaseous CO2 signal initiates growth of butyric-acid-producing Clostridium butyricum in both pure culture and mixed cultures with Lactobacillus brevis. Hakalehto, Elias and Hänninen, Osmo. July 2012.
- ↑ The Sour Hour on the Brewing Network. Interview with Khris Johnson. Nov 20, 2014.
- ↑ Brewing Microbiology. Fergus Priest, Iain Campbell. Springer Science & Business Media, Jun 27, 2011.
- ↑ Brewing Microbiology: Managing Microbes, Ensuring Quality and Valorising Waste. Hill, Annie. Woodhead Publishing, May 26, 2015.
- ↑ Fusobacterium nucleatum. MicrobeWiki. Retrieved 6/21/2015.
- ↑ ATCC. Fusobacterium nucleatum subsp. nucleatum (ATCC ® 25586™). Retrieved 6/21/2015.
- ↑ Ribeiro-Ribas, R.N., De Carvalho, M.A.R., Vieira, C.A., Apolônio, A.C.M., Magalhães, P.P., Mendes, E.N., Oliveira, J.S., Santoro, M.M. and De Macêdo Farias, L. (2009), Purification and partial characterization of a bacteriocin produced by an oral Fusobacterium nucleatum isolate. Journal of Applied Microbiology, 107: 699–705. doi: 10.1111/j.1365-2672.2009.04250.x
- ↑ Cotta, M A, and R B Hespell. “Proteolytic Activity of the Ruminal Bacterium Butyrivibrio Fibrisolvens.” Applied and Environmental Microbiology 52.1 (1986): 51–58. Print.
- ↑ Lee, Meng-Rui et al. “Clinical and Microbiological Characteristics of Bacteremia Caused by Eggerthella, Paraeggerthella, and Eubacterium Species at a University Hospital in Taiwan from 2001 to 2010.” Journal of Clinical Microbiology 50.6 (2012): 2053–2055. PMC. Web. 22 June 2015.
- ↑ Fermentation: Effects on Food Properties. Bhavbhuti M. Mehta, Afaf Kamal-Eldin, Robert Z. Iwanski. CRC Press, Apr 12, 2012. Pg 76,77.
- ↑ Principles of Microbiology. R S. Mehrotra. ata McGraw-Hill Education, 2009. Pg 53.
- ↑ PubMed. 1-Butanol. Retrieved 6/21/2015.