Diose: Difference between revisions
<<ref name="Abderhalden">{{cite book |title=Text Book of Physiological Chemistry in Thirty Lectures|last=Abderhalden|first=Emil|authorlink=Emil Abderhalden|others=Translated by William T Hall and George Defren|year=1908|origyear=1906|publisher=J Wiley & S |
Quote from Abderhalden {In the original, the formula for '''HC(O)-CH<sub>2</sub>OH''' is printed in line as a semi-Fischer structure} |
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[[File:Glycolaldehyde-3D-balls.png|thumb|Glycolaldehyde is the only diose]] |
[[File:Glycolaldehyde-3D-balls.png|thumb|Glycolaldehyde is the only diose]] |
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A '''diose''' is a [[monosaccharide]] containing two [[carbon]] [[atom]]s. Because the general [[chemical formula]] of an unmodified monosaccharide is (C·H<sub>2</sub>O)<sub>n</sub>, where n is three or greater, it does not meet the formal definition of a monosaccharide. However, since it does fit the formula (C·H<sub>2</sub>O)<sub>n</sub>, it is sometimes thought of as the most basic sugar.<ref name="Abderhalden">{{cite book |title=Text Book of Physiological Chemistry in Thirty Lectures|last=Abderhalden|first=Emil|authorlink=Emil Abderhalden|others=Translated by William T Hall and George Defren|year=1908|origyear=1906|publisher=J Wiley & Sons|location=New York|url=https://archive.org/details/textbookofphysio00abde|page=19|accessdate=23 April 2014}}</ref> |
A '''diose''' is a [[monosaccharide]] containing two [[carbon]] [[atom]]s. Because the general [[chemical formula]] of an unmodified monosaccharide is (C·H<sub>2</sub>O)<sub>n</sub>, where n is three or greater, it does not meet the formal definition of a monosaccharide. However, since it does fit the formula (C·H<sub>2</sub>O)<sub>n</sub>, it is sometimes thought of as the most basic sugar.<ref name="Abderhalden">{{cite book |title=Text Book of Physiological Chemistry in Thirty Lectures|last=Abderhalden|first=Emil|authorlink=Emil Abderhalden|others=Translated by William T Hall and George Defren|year=1908|origyear=1906|publisher=J Wiley & Sons|location=New York|url=https://archive.org/details/textbookofphysio00abde|page=19|accessdate=23 April 2014}}</ref> |
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<blockquote>The large number of sugars prepared synthetically, some of which have not yet been found in nature, together with the natural sugars are subdivided into groups. We distinguish, in the first place, between the more simple sugars called ''monosaccharides'' and compound sugars called ''polysaccharides''. The latter may be regarded as formed from two or more molecules of the former with elimination of water, and, as a matter of fact, the simpler sugars may be formed from them by hydrolysis.<br> |
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The monosaccharides again are divided into subclasses governed by the number of carbon atoms in the molecule. Thus we have a ''diose'' (glycol aldehyde, or glycolose, '''HC(O)-CH<sub>2</sub>OH''') which is the simplest possible sugar, and ''trioses'', ''tetroses'', ''pentoses'', ''hexoses'', ''heptoses'', etc.<ref name="Abderhalden" /></blockquote> |
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There is only one possible diose, [[glycolaldehyde]] (2-hydroxyethanal), which is an aldodiose (a ketodiose is not possible since there are only two carbons). |
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== See also == |
== See also == |
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Revision as of 16:38, 22 April 2014
A diose is a monosaccharide containing two carbon atoms. Because the general chemical formula of an unmodified monosaccharide is (C·H2O)n, where n is three or greater, it does not meet the formal definition of a monosaccharide. However, since it does fit the formula (C·H2O)n, it is sometimes thought of as the most basic sugar.[1]
The large number of sugars prepared synthetically, some of which have not yet been found in nature, together with the natural sugars are subdivided into groups. We distinguish, in the first place, between the more simple sugars called monosaccharides and compound sugars called polysaccharides. The latter may be regarded as formed from two or more molecules of the former with elimination of water, and, as a matter of fact, the simpler sugars may be formed from them by hydrolysis.
The monosaccharides again are divided into subclasses governed by the number of carbon atoms in the molecule. Thus we have a diose (glycol aldehyde, or glycolose, HC(O)-CH2OH) which is the simplest possible sugar, and trioses, tetroses, pentoses, hexoses, heptoses, etc.[1]
There is only one possible diose, glycolaldehyde (2-hydroxyethanal), which is an aldodiose (a ketodiose is not possible since there are only two carbons).
See also
References
- ^ a b Abderhalden, Emil (1908) [1906]. Text Book of Physiological Chemistry in Thirty Lectures. Translated by William T Hall and George Defren. New York: J Wiley & Sons. p. 19. Retrieved 23 April 2014.
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