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Difference between revisions of "Glycoside Hydrolase Family 52"
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== Substrate specificities == | == Substrate specificities == | ||
− | GH52 enzymes are bacterial exo-β-xylosidases (EC 3.2.1.37), which cleave xylose from the nonreducing end of xylooligosaccharides. Activity has been demonstrated on ''p''NP-β-d-xylopyranoside <cite>Bravman2001, Espina2014</cite>, xylobiose <cite>Espina2014</cite>, xylotriose <cite>Espina2014</cite>. | + | GH52 enzymes are bacterial ''exo''-β-xylosidases (EC 3.2.1.37), which cleave xylose from the nonreducing end of xylooligosaccharides. Activity has been demonstrated on ''p''NP-β-d-xylopyranoside <cite>Bravman2001, Espina2014</cite>, xylobiose <cite>Espina2014</cite>, xylotriose <cite>Espina2014</cite>. |
== Kinetics and Mechanism == | == Kinetics and Mechanism == |
Revision as of 11:03, 23 July 2020
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- Author: ^^^Julie Grondin^^^
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Glycoside Hydrolase Family GH52 | |
Clan | GH-O |
Mechanism | retaining |
Active site residues | known |
CAZy DB link | |
https://www.cazy.org/GH52.html |
Substrate specificities
GH52 enzymes are bacterial exo-β-xylosidases (EC 3.2.1.37), which cleave xylose from the nonreducing end of xylooligosaccharides. Activity has been demonstrated on pNP-β-d-xylopyranoside [1, 2], xylobiose [2], xylotriose [2].
Kinetics and Mechanism
GH52 are retaining enzymes, proceeding via a Kochland double-displacement mechanism. This was first shown by 1H-NMR in the cleavage of pNP-β-D-xylopyranoside by XynB2 from Bacillus stearothermophilus T-6 [1].
Catalytic Residues
Site-directed mutagenesis, chemical rescue, and kinetic profiling of XynB2 from Bacillus stearothermophilus T-6 identified E335 as the nucleophile, and D495 as the general acid/base [1, 3]. These results were further confirmed following the structural analysis of GH52 from Geobacillus thermoglucosidasius [2], their 6.5A separation in the active site consistent with other retaining enzymes
Three-dimensional structures
The structure of GH52 consists of an N-terminal β-sandwich domain and a C-terminal (a/a)6 barrel domain, classifying these enzymes into the GH-O clan.
The exo-acting mode of action of GH52 is reflected in the topology of the active site. The enzyme acts as a dimer in solution [1, 2], with interactions between monomers forming a deep pocket to enclose and distort the non-reducing end xylose into a high-energy 4H3 half-chair transition conformation, while simultaneously hindering the entry of large xylan polymers into the catalytic site [2].
Family Firsts
- First stereochemistry determination
- XynB2 from Bacillus stearothermophilus T-6 by 1H-NMR for the hydrolysis of pNP-β-D-xylopyranoside [1].
- First catalytic nucleophile identification
- XynB2 from Bacillus stearothermophilus T-6 by site-directed mutagenesis and chemical rescue [3].
- First general acid/base residue identification
- XynB2 from Bacillus stearothermophilus T-6 by site-directed mutagenesis, chemical rescue, and pH profiling [3].
- First 3-D structure
- GH52 from Geobacillus thermoglucosidasius NBRC 107763 [2].
References
- Bravman T, Zolotnitsky G, Shulami S, Belakhov V, Solomon D, Baasov T, Shoham G, and Shoham Y. (2001). Stereochemistry of family 52 glycosyl hydrolases: a beta-xylosidase from Bacillus stearothermophilus T-6 is a retaining enzyme. FEBS Lett. 2001;495(1-2):39-43. DOI:10.1016/s0014-5793(01)02360-2 |
- Espina G, Eley K, Pompidor G, Schneider TR, Crennell SJ, and Danson MJ. (2014). A novel β-xylosidase structure from Geobacillus thermoglucosidasius: the first crystal structure of a glycoside hydrolase family GH52 enzyme reveals unpredicted similarity to other glycoside hydrolase folds. Acta Crystallogr D Biol Crystallogr. 2014;70(Pt 5):1366-74. DOI:10.1107/S1399004714002788 |
- Bravman T, Belakhov V, Solomon D, Shoham G, Henrissat B, Baasov T, and Shoham Y. (2003). Identification of the catalytic residues in family 52 glycoside hydrolase, a beta-xylosidase from Geobacillus stearothermophilus T-6. J Biol Chem. 2003;278(29):26742-9. DOI:10.1074/jbc.M304144200 |