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Fig. 2 | Engineering alcohol tolerance in yeast | Science
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Alcohol tolerance refers to the bodily responses to the functional effects of ethanol in alcoholic beverages. This includes direct tolerance, speed of recovery from insobriety and resistance to the development of alcoholism.


Video Alcohol tolerance



Consumption-induced tolerance

Alcohol tolerance is increased by regular drinking. This reduced sensitivity requires that higher quantities of alcohol be consumed in order to achieve the same effects as before tolerance was established. Alcohol tolerance may lead to (or be a sign of) alcohol dependency.

Heavy alcohol consumption over a period of years can lead to "reverse tolerance". A liver can be damaged by chronic alcohol use, leading to a buildup of fat and scar tissue. The reduced ability of such a liver to metabolize or break down alcohol means that small amounts can lead to a high blood alcohol concentration (BAC) and more rapid intoxication.


Maps Alcohol tolerance



Physiology of alcohol tolerance

Direct alcohol tolerance is largely dependent on body size. Large-bodied people will require more alcohol to reach insobriety than lightly built people. Thus men, being larger than women on average, will have a higher alcohol tolerance. The alcohol tolerance is also connected with activity of alcohol dehydrogenases (a group of enzymes responsible for the breakdown of alcohol) in the liver, and in the bloodstream.

High level of alcohol dehydrogenase activity results in fast transformation of ethanol to more toxic acetaldehyde. Such atypical alcohol dehydrogenase levels are less frequent in alcoholics than in nonalcoholics and, alongside other symptoms, can indicate various forms of liver disease. Furthermore, among alcoholics, the carriers of this atypical enzyme consume lower ethanol doses, compared to the individuals without the allele.


BTS members' alcohol tolerance ranking | BTS news - YouTube
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Alcohol tolerance in different ethnic groups

The tolerance to alcohol is not equally distributed throughout the world's population, and genetics of alcohol dehydrogenase indicate resistance has arisen independently in different cultures. In North America, Native Americans have the highest probability of developing alcoholism compared to Europeans and Asians.

Higher body masses and the prevalence of high levels of alcohol dehydrogenase in an individual increase alcohol tolerance.

Not all differences in tolerance can be traced to biochemistry. Differences in tolerance levels are also influenced by socio-economic and cultural difference including diet, average body weight and patterns of consumption.

An estimated one out of twenty people have an alcohol flush reaction. It is not in any way an indicator for the drunkenness of an individual. It is colloquially known as "face flush", a condition where the body metabolizes alcohol nearly 100-times less efficiently into acetaldehyde, a toxic metabolite. Flushing, or blushing, is associated with the erythema (reddening caused by dilation of capillaries) of the face, neck, and shoulder, after consumption of alcohol.


Alcohol Education | The Gordie Center
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Footnotes


Moderate Alcohol Induces Stress Proteins HSF1 and hsp70 and ...
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References

  • Carroll, Charles R. Drugs in Modern Society . NY: McGraw-Hill, 2000 (fifth ed.).
  • Chesher, G.; Greeley, J. (1992). "Tolerance to the effects of alcohol". Alcohol, Drugs and Driving. 8 (2): 93-106. 
  • Osier, M; Pakstis, AJ; Kidd, JR; Lee, JF; Yin, SJ; Ko, HC; Edenberg, HJ; Lu, RB; Kidd, KK (1999). "Linkage disequilibrium at the ADH2 and ADH3 loci and risk of alcoholism". American Journal of Human Genetics. 64 (4): 1147-57. doi:10.1086/302317. PMC 1377839 . PMID 10090900. 
  • Muramatsu, T; Wang, ZC; Fang, YR; Hu, KB; Yan, H; Yamada, K; Higuchi, S; Harada, S; Kono, H (1995). "Alcohol and aldehyde dehydrogenase genotypes and drinking behavior of Chinese living in Shanghai". Human Genetics. 96 (2): 151-4. doi:10.1007/BF00207371. PMID 7635462. 
  • Neumark, YD; Friedlander, Y; Thomasson, HR; Li, TK (1998). "Association of the ADH2*2 allele with reduced ethanol consumption in Jewish men in Israel: A pilot study". Journal of studies on alcohol. 59 (2): 133-9. PMID 9500299. 
  • Borinskaya, S. A.; Gasemianrodsari, F.; Kalyina, N. R.; Sokolova, M. V.; Yankovsky, N. K. (2005). "Polymorphism of Alcohol Dehydrogenase Gene ADH1B in Eastern Slavic and Iranian-Speaking Populations". Russian Journal of Genetics. 41 (11): 1291-4. doi:10.1007/s11177-005-0231-5.  Translated from "Polymorphism of alcohol dehydrogenase gene ADH1B in eastern Slavic and Iranian-speaking populations". Genetika. 41 (11): 1563-6. 2005. PMID 16358724. 
  • Borinskaya, Svetlana; Kal'Ina, Nina; Marusin, Andrey; Faskhutdinova, Gulnaz; Morozova, Irina; Kutuev, Ildus; Koshechkin, Vladimir; Khusnutdinova, Elza; et al. (2009). "Distribution of the Alcohol Dehydrogenase ADH1B*47His Allele in Eurasia". American Journal of Human Genetics. 84 (1): 89-92; author reply 92-4. doi:10.1016/j.ajhg.2008.12.007. PMC 2668054 . PMID 19124091. 
  • Li, Hui; Borinskaya, Svetlana; Yoshimura, Kimio; Kal'Ina, Nina; Marusin, Andrey; Stepanov, Vadim A.; Qin, Zhendong; Khaliq, Shagufta; et al. (2009). "Refined Geographic Distribution of the Oriental ALDH2*504Lys (nee 487Lys) Variant". Annals of Human Genetics. 73 (3): 335-45. doi:10.1111/j.1469-1809.2009.00517.x. PMC 2846302 . PMID 19456322. 

Common low-carb side effects & how to cure them
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Further reading

  • Caetano R, Clark CL, Tam T (1998). "Alcohol consumption among racial/ethnic minorities: theory and research" (PDF). Alcohol Health Res World. 22 (4): 233-41. PMID 15706749. Archived from the original (PDF) on June 16, 2015. CS1 maint: Uses authors parameter (link)

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