Difference between revisions of "Glycoside Hydrolase Family 62"

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• Author: Harry Gilbert and ^^^Casper Wilken^^^
• Responsible Curator: Harry Gilbert

Substrate specificities

This small family of glycoside hydrolases comprises both eukaryotic and prokaryotic enzymes. All the characterized enzymes in this family are arabinofuranosidases and the majority act on xylose moieties in xylan and arabinose moieties in arabinan that are single substituted with α-1,2 and α-1,3-L-arabinofuranose side chains [1] with K_cat ranging from 0.3 to 180 s^-1 on wheat arabinoxylan [2, 3, 4, 5]. However, a single GH62 enzyme from Pencillium oxalicum exclusively act on the α-1,3-L-arabinofuranose side chains [6]. The GH62 enzymes also display limited non-specific arabinofuranosidase activity; for example the arabinofuranosidases exhibit no [7] or very little [2, 3] activity against 4-nitrophenyl α-L-arabinofuranoside. Several of these enzymes contain carbohydrate binding modules that target cellulose- [7] or xylan- [8].

Kinetics and Mechanism

GH62 enzymes are inverting enzymes as first shown by NMR [9].

Catalytic Residues

Asp (general acid) and Glu (general base), as suggested by tertiary structures [2, 3, 10] and supported by site-directed mutagenesis and kinetic data [2, 3].

Three-dimensional structures

Based on its location in clan F, enzymes from family GH62s are predicted to display a 5-fold β-propeller fold. This hypothesis was confirmed by three papers published in 2014 [2, 3, 10]. The predicted catalytic general acid, catalytic general base and pKa modulator [11] were also confirmed by mutagenesis data [2, 3]. The active site arabinose-containing pocket opens up into a cleft or channel that binds the xylooligosaccharides and thus the xylan chain. The residues that interact with the polysaccharide backbone were identified [2]. In this respect a conserved tyrosine, present on a mobile loop, was shown to make an important contribution to substrate binding through hydrophobic interactions with the arabinose located in the active site [12].

Family Firsts

First sterochemistry determination

Determined for Aspergillus nidulans α-L-arabinofuranosidase A by proton NMR [9].

First general acid residue identification

3D structural data [2, 3, 10] in concert with supporting mutagenesis data [2, 3].

First general base residue identification

3D structural data [2, 3, 10] in concert with supporting mutagenesis data [2, 3].

First 3-D structure

Several papers in 2014 reveal the 5-fold β-propeller fold [2, 3, 10].

References

1. Error fetching PMID 28669588: [Wilkens2017]
2. Error fetching PMID 24482228: [Maehara2014]
3. Error fetching PMID 24951792: [Wang2014]
6. Error fetching PMID 29611040: [Hu2018]
7. Kellett LE, Poole DM, Ferreira LM, Durrant AJ, Hazlewood GP, and Gilbert HJ. (1990). Xylanase B and an arabinofuranosidase from Pseudomonas fluorescens subsp. cellulosa contain identical cellulose-binding domains and are encoded by adjacent genes. Biochem J. 1990;272(2):369-76. DOI:10.1042/bj2720369 | PubMed ID:2125205 [Kellett1990]
8. Error fetching PMID 9461488: [Dupont1998]
9. Error fetching PMID 26946172: [Wilkens2016]
10. Error fetching PMID 24394409: [Siguier2014]
11. Error fetching PMID 9148759: [Vincent1997]
12. Error fetching PMID 28890404: [Contesini2017]
13. Error fetching PMID 14747991: [Pons2004]

All Medline abstracts: PubMed