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Difference between revisions of "Glycoside Hydrolase Family 101"

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#3 pmid=18635885
#4 in preparation
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#4 pmid=16141207
#5 pmid=18784084
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Revision as of 10:40, 10 July 2009


Glycoside Hydrolase Family GH101
Clan GH-x
Mechanism retaining
Active site residues known
CAZy DB link
http://www.cazy.org/fam/GH101.html

Substrate specificities

The CAZY GH101 family currently contains proteins from 12 species of bacteria, most of which are commensal human bacteria, though some may also be human pathogens. The substrates are glycoproteins which contain the dissacharride Gal-beta-1,3-GalNAc-alpha-R also know as the Core 1 O-linked glycans on proteins. This glycosylation is a feature of mucin proteins. This enzyme activity was first observed in Clostridium perfringens [1] and then in Streptococcus pnuemoniae [2]. At present the known enzymes will not digest longer oligosaccharides, and variable amounts of activity have been seen on Core 2 and 3 type linkages [3].

Kinetics and Mechanism

Retaining mechanism determined by H1-NMR with the BlGH101 enzyme [3].

Catalytic Residues

Using the enzyme from Streptococcus pnuemoniae the nucleophile was determined as residue D764. Willis et al in preparation [4] The acid/base catalyst in SpGH101 was determined to be E796.


Three-dimensional structures

[5]. [6]


Family Firsts

First sterochemistry determination
Cite some reference here, with a short explanation.

This was determined with the BlGH101 enzyme using the H1-NMR technique [3].

First catalytic nucleophile identification

This was proposed based on the structure of the SpGH101 and BlGH101 structures, and then experimentally shown in SpGH101 by Willis and co-workers [4].

First general acid/base residue identification

experimentally shown in SpGH101 by Willis and co-workers [4]

First 3-D structure

Determined for SpGH101 by Caines and co-workers [5]

References

  1. Huang CC and Aminoff D. (1972). Enzymes that destroy blood group specificity. V. The oligosaccharase of Clostridium perfringens. J Biol Chem. 1972;247(21):6737-42. | Google Books | Open Library PubMed ID:4343155 [1]
  2. Bhavanandan VP, Umemoto J, and Davidson EA. (1976). Characterization of an endo-alpha-N-acetyl galactosaminidase from Diplococcus pneumoniae. Biochem Biophys Res Commun. 1976;70(3):738-45. DOI:10.1016/0006-291x(76)90654-9 | PubMed ID:7253 [2]
  3. Koutsioulis D, Landry D, and Guthrie EP. (2008). Novel endo-alpha-N-acetylgalactosaminidases with broader substrate specificity. Glycobiology. 2008;18(10):799-805. DOI:10.1093/glycob/cwn069 | PubMed ID:18635885 [3]
  4. Fujita K, Oura F, Nagamine N, Katayama T, Hiratake J, Sakata K, Kumagai H, and Yamamoto K. (2005). Identification and molecular cloning of a novel glycoside hydrolase family of core 1 type O-glycan-specific endo-alpha-N-acetylgalactosaminidase from Bifidobacterium longum. J Biol Chem. 2005;280(45):37415-22. DOI:10.1074/jbc.M506874200 | PubMed ID:16141207 [4]
  5. in preparation

    [5]
  6. Caines ME, Zhu H, Vuckovic M, Willis LM, Withers SG, Wakarchuk WW, and Strynadka NC. (2008). The structural basis for T-antigen hydrolysis by Streptococcus pneumoniae: a target for structure-based vaccine design. J Biol Chem. 2008;283(46):31279-83. DOI:10.1074/jbc.C800150200 | PubMed ID:18784084 [6]
  7. Suzuki R, Katayama T, Kitaoka M, Kumagai H, Wakagi T, Shoun H, Ashida H, Yamamoto K, and Fushinobu S. (2009). Crystallographic and mutational analyses of substrate recognition of endo-alpha-N-acetylgalactosaminidase from Bifidobacterium longum. J Biochem. 2009;146(3):389-98. DOI:10.1093/jb/mvp086 | PubMed ID:19502354 [7]

All Medline abstracts: PubMed