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Carbohydrate-active enzymes

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Individual monosaccharide units have the potential to be joined together to form oligo- and polysaccharides, with the glycosidic linkage occurring between the anomeric position of one sugar with the hydroxyl group of another [1, 2]. Owing to the many hydroxy groups on each sugar, the potential for two possible anomeric configurations, and the possibility of different ring sizes (pyranose and furanose are the most common), there is a combinatorially-large number of structures possible [3]. Further, carbohydrates can be linked to other, non-carbohydrate molecules to generate a wide range of glycoconjugates [4]. Reflecting this structural diversity, there is a large diversity of enzymes involved in the biosynthesis, modification, binding and catabolism of carbohydrates.

The Carbohydrate Active EnZyme ("CAZy") classification

The Carbohydrate Active EnZyme (CAZy) classification is a sequence-based classification of enzymes that synthesize or break-down saccharides, which originated with the seminal grouping of glycoside hydrolases by Bernard Henrissat ([5, 6, 7, 8]; see [9] for a lucid historical review). The creation of a family requires at least one biochemically-characterized member, and is based on the concept that sequence defines protein structure, and protein structure defines function. Generally, but not exclusively, functional properties often extend to other members of the family, and provides a framework upon which to base testable hypotheses of enzyme structure and function [10]. Since its inception, the CAZy classification and associated database has undergone continually active curation, including the addition of new enzyme and associated module classes [11, 12]. Hence, the CAZy classification presently comprises the following modules:

Further information on the composition of the families and mechanistic details can be obtained via these pages and the corresponding Lexicon entries.

References

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  1. [StickWilliams2009]
  2. Michael Sinnott. (2007) Carbohydrate Chemistry and Biochemistry. Royal Society of Chemistry. [Sinnott2007]
  3. Error fetching PMID 7734838: [Laine1994]
  4. Maureen E. Taylor and Kurt Drickamer. (2011-04-21) Introduction to Glycobiology. Oxford University Press, USA. [TaylorDrickamer2011]
  5. Error fetching PMID 2806912: [Henrissat1989]
  6. Error fetching PMID 1747104: [Henrissat1991]
  7. Error fetching PMID 8352747: [Henrissat1993]
  8. Error fetching PMID 8687420: [Henrissat1996]

  9. Davies, G.J. and Sinnott, M.L. (2008) Sorting the diverse: the sequence-based classifications of carbohydrate-active enzymes. The Biochemist, vol. 30, no. 4., pp. 26-32. Download PDF version.

    [DaviesSinnott2008]
  10. Error fetching PMID 8535779: [DaviesHenrissat1995]
  11. Cantarel BL, Coutinho PM, Rancurel C, Bernard T, Lombard V, and Henrissat B. (2009). The Carbohydrate-Active EnZymes database (CAZy): an expert resource for Glycogenomics. Nucleic Acids Res. 2009;37(Database issue):D233-8. DOI:10.1093/nar/gkn663 | PubMed ID:18838391 [Cantarel2009]
  12. Error fetching PMID 24270786: [Lombard2013]
  13. Error fetching PMID 9334165: [Campbell1997]
  14. Error fetching PMID 12691742: [Coutinho2003]
  15. Claus-Wilhelm von der Lieth, Thomas Luetteke, and Martin Frank. (2010-01-19) Bioinformatics for Glycobiology and Glycomics: An Introduction. Wiley. [Coutinho2009]

    Chapter 5: Coutinho PM, Rancurel C, Stam M, Bernard T, Couto FM, Danchin EGJ, Henrissat B. "Carbohydrate-active Enzymes Database: Principles and Classification of Glycosyltransferases."

  16. Error fetching PMID 20925655: [Lombard2010]
  17. Error fetching PMID 20805221: [Garron2010]
  18. Error fetching PMID 16263268: [Davies2005]
  19. Error fetching PMID 22580218: [Biely2012]
  20. Error fetching PMID 23514094: [Levasseur2013]

All Medline abstracts: PubMed

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