Disaccharide

A disaccharide (also called a double sugar or biose[1]) is the sugar formed when two monosaccharides (simple sugars) are joined. Like monosaccharides, disaccharides are soluble in water. Three common examples are sucrose, lactose,[2] and maltose.

Disaccharides are one of the four chemical groupings of carbohydrates (monosaccharides, disaccharides, oligosaccharides, and polysaccharides). The most common types of disaccharides—sucrose, lactose, and maltose—have twelve carbon atoms, with the general formula C12H22O11. The differences in the disaccharides are due to atomic arrangements within the molecule.[3]

The joining of simple sugars into a double sugar happens by a condensation reaction, which involves the elimination of a water molecule from the functional groups only. Breaking apart a double sugar into its two simple sugars is accomplished by hydrolysis with the help of a type of enzyme called a disaccharidase. As building the larger sugar ejects a water molecule, breaking it down consumes a water molecule. These reactions are vital in metabolism. Each disaccharide is broken down with the help of a corresponding disaccharidase (sucrase, lactase, and maltase).

Classification

There are two functionally different classes of disaccharides:

[4] [5]

Formation

The formation of a disaccharide molecule from two monosaccharide molecules proceeds by displacing a hydroxyl radical from one molecule and a hydrogen nucleus (a proton) from the other, so that the now vacant bonds on the monosaccharides join the two monomers together. The vacant bonds on the hydroxyl radical and the proton unite in their turn, forming a molecule of water, that then goes free. Because of the removal of the water molecule from the product, the term of convenience for such a process is "dehydration reaction" (also "condensation reaction" or "dehydration synthesis"). For example, milk sugar (lactose) is a disaccharide made by condensation of one molecule of each of the monosaccharides glucose and galactose, whereas the disaccharide sucrose in sugar cane and sugar beet, is a condensation product of glucose and fructose. Maltose, another common disaccharide, is condensed from two glucose molecules.[6]

The dehydration reaction that bonds monosaccharides into disaccharides (and also bonds monosaccharides into more complex polysaccharides) forms what are called glycosidic bonds.[7]

Properties

The glycosidic bond can be formed between any hydroxyl group on the component monosaccharide. So, even if both component sugars are the same (e.g., glucose), different bond combinations (regiochemistry) and stereochemistry (alpha- or beta-) result in disaccharides that are diastereoisomers with different chemical and physical properties.

Depending on the monosaccharide constituents, disaccharides are sometimes crystalline, sometimes water-soluble, and sometimes sweet-tasting and sticky-feeling.

Assimilation

Digestion involves breakdown to the monosaccharides. carbohydrate digestion

Common disaccharides

Disaccharide Unit 1 Unit 2 Bond
Sucrose (table sugar, cane sugar, beet sugar, or saccharose) Glucose Fructose α(1→2)β
Lactulose Galactose Fructose β(1→4)
Lactose (milk sugar) Galactose Glucose β(1→4)
Maltose (malt sugar) Glucose Glucose α(1→4)
Trehalose Glucose Glucose α(1→1)α
Cellobiose Glucose Glucose β(1→4)
Chitobiose Glucosamine Glucosamine β(1→4)

Maltose, cellobiose, and chitobiose are hydrolysis products of the polysaccharides starch, cellulose, and chitin, respectively.

Less common disaccharides include:[8]

Disaccharide Units Bond
Kojibiose two glucose monomers α(1→2) [9]
Nigerose two glucose monomers α(1→3)
Isomaltose two glucose monomers α(1→6)
β,β-Trehalose two glucose monomers β(1→1)β
α,β-Trehalose two glucose monomers α(1→1)β[10]
Sophorose two glucose monomers β(1→2)
Laminaribiose two glucose monomers β(1→3)
Gentiobiose two glucose monomers β(1→6)
Turanose a glucose monomer and a fructose monomer α(1→3)
Maltulose a glucose monomer and a fructose monomer α(1→4)
Palatinose a glucose monomer and a fructose monomer α(1→6)
Gentiobiulose a glucose monomer and a fructose monomer β(1→6)
Mannobiose two mannose monomers either α(1→2), α(1→3), α(1→4), or α(1→6)
Melibiose a galactose monomer and a glucose monomer α(1→6)
Melibiulose a galactose monomer and a fructose monomer α(1→6)
Rutinose a rhamnose monomer and a glucose monomer α(1→6)
Rutinulose a rhamnose monomer and a fructose monomer β(1→6)
Xylobiose two xylopyranose monomers β(1→4)

References

  1. Biose on www.merriam-webster.org
  2. IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006) "disaccharides".
  3. Biology- A course for O Level. p. 59. ISBN 9810190964.
  4. "Nomenclature of Carbohydrates (Recommendations 1996)2-Carb-36 Disaccharides.".
  5. "Disaccharides and Oligosaccharides". Retrieved 2008-01-29.
  6. Whitney, Ellie; Sharon Rady Rolfes (2011). Peggy Williams, ed. Understanding Nutrition (Twelfth ed.). California: Wadsworth, Cengage Learning. p. 100. ISBN 0-538-73465-5.
  7. "Glycosidic Link". OChemPal. Utah Valley University. Retrieved 11 December 2013.
  8. F.W.Parrish; W.B.Hahn,G.R.Mandels (July 1968). "Crypticity of Myrothecium verrucaria Spores to Maltose and Induction of Transport by Maltulose, a Common Maltose Contaminant" (PDF). J. Bacteriol. (American Society for Microbiology) 96 (1): 227–233. PMC 252277. PMID 5690932. Retrieved 2008-11-21.
  9. Matsuda, K.; Abe, Y; Fujioka, K (November 1957). "Kojibiose (2-O-alpha-D-Glucopyranosyl-D-Glucose): Isolation and Structure: Chemical Synthesis". Nature 180 (4593): 985–6. doi:10.1038/180985a0. PMID 13483573.
  10. T. Taga; Y. Miwa; Z. Min (1997). "α,β-Trehalose Monohydrate". Acta Crystallogr. C 53 (2): 234–236. doi:10.1107/S0108270196012693.

External links

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