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Difference between revisions of "Glycoside Hydrolase Family 58"
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Latest revision as of 13:19, 18 December 2021
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| Glycoside Hydrolase Family GH58 | |
| Clan | none |
| Mechanism | inverting |
| Active site residues | Arg596, Arg647 and Glu581 |
| CAZy DB link | |
| https://www.cazy.org/GH58.html | |
Substrate specificities
Glycoside hydrolases of family 58 are endo-N-acetylneuraminidases (also termed endo-sialidases). The capsular coat surrounding E. coli K1, is poly-α-2,8-sialic acid and protects the bacterium from the host immune system, but it also acts as an anchor point for bacteriophage infection. A range of bacteriophages specific to this E. coli capsule type have been described which have tailspike enzymes that degrade the capuslar material [1, 2, 3]
Kinetics and Mechanism
Family 58 endo-sialidases are specific for polysialic acid and form a unique family of endo-acting sialidases, all others previously reported being exo-acting. The recently determined structure of an endo-sialidase derived from bacteriophage K1F (endoNF) [4] revealed the active site to lack a number of the residues that are conserved in other sialidases, implying a new, endo-sialidase-specific catalytic mechanism. Using synthetic trifluoromethylumbelliferyl oligosialoside substrates kinetic parameters for hydrolysis at a single cleavage site were determined. Measurement of kcat/Km at a series of pH values revealed a dependence on a single protonated group of pKa 5. Direct 1H-NMR analysis of the hydrolysis of trifluoromethylumbelliferyl sialotrioside revealed that endoNF affects catalysis with an inverting mechanism [5].
Catalytic Residues
From the crystal structure of the GH-58 enzyme it was noted that the normal catalyic residues found in exo-sialidases were not present. Instead, three conserved amino acids (Arg596, Arg647 and Glu581) were observed that contribute to endosialidase activity. Single mutations of those residues reduced the level of activity, but not enough to mark the residues as absolutely required. However, when double mutants were examined there was a complete loss of hydrolysis, but binding to PSA still occured [4]. Since this enzyme proceeds with inverting stereochemistry, a catalytic base is implied by the mechanism, and Glu581 might fill that role [5].
Three-dimensional structures
The structure for the K1F tailspike enzyme has been solved by Stummeyer et al. [4]. The protein structure is similar to other phage tailspike endo-hydrolases in that it is an extended, trimeric molecule. The first tailspike enzyme to be studied in detail was the endo-rhamnosidase from the Salmonella phage P22 [6], which is in family GH90. The pictures here were generated in Pymol from PDB entry 1voe. Each monomer is a different colour to highlight the trimeric nature of the protein.
- PDB ID 1voe from GH58 (click images for large versions)
top view
side view
Family Firsts
- First sterochemistry determination
- The stereochemical outcome of this reaction was determined in the Withers laboratory at UBC using synthetic substrates with a trifluoromethyl-umbelliferol fluorophore [5]. This determination showed that unlike all other known sialidases, the endo-sialidase uses an inverting mechanism.
- First catalytic nucleophile identification
- Since this enzyme proceeds with inversion of sterechemistry, is does not use a catalytic nuceleophile.
- First general acid/base residue identification
- It has been suggested though not conclusively proven that Glu581 is the catalytic base for this reaction [4, 5].
- First 3-D structure
- The first structure determination was performed with a truncated version of the K1F protein [4].
References
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