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Difference between revisions of "Glycoside Hydrolase Family 93"
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== Three-dimensional structures == | == Three-dimensional structures == | ||
− | The crystal structure of Arb93A reveals a six-bladed β-propeller fold characteristic of sialidases of [[clan]] GH-E. <cite>2 | + | The crystal structure of Arb93A reveals a six-bladed β-propeller fold characteristic of sialidases of [[clan]] GH-E. <cite>2,4</cite>, The catalytic machinery is however very different from that of sialidases. |
[[Image:Overalla4.jpg|Arb93A]] | [[Image:Overalla4.jpg|Arb93A]] |
Revision as of 08:07, 8 September 2011
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Glycoside Hydrolase Family GH93 | |
Clan | GH-E |
Mechanism | retaining |
Active site residues | known |
CAZy DB link | |
http://www.cazy.org/fam/GH93.html |
Substrate specificities
The characterized glycoside hydrolases of family GH93 are known to hydrolyse linear α-1,5-L-arabinan. [1], [2], EC:3.2.1-.
Kinetics and Mechanism
GH93 enzymes are exo-acting enzymes that only release arabinobiose from the non-reducing end of α-1,5-L-arabinan. These enzymes are proposed to be retaining enzymes based on the net retention of the configuration of the anomeric carbon is proposed from the products of the transglycosylation activity of the protein Abnx from Penicillium chrysogenum [3]. This proposal obtained support from the crystal structures of the Arb93A enzyme from Fusarium graminearum and Abnx both in complex with arabinobiose. [2, 4] α-L-Arabinofuranosylated pyrrolidines were shown to be good inhibitors of Arb93A. The Arb93A complex structure with a deoxyiminosugar equivalent of arabinobiose revealed a 4TN twist conformation expected for the Michaelis complex, as seen for several retaining GH51 α-L-arabinofuranosidases. [5]
Catalytic Residues
From the crystal structure of Arb93A, Glu170 and Glu242 are proposed to act as catalytic nucleophile and general acid/base respectively. Mutagenesis experiment support their role in catalysis and they are strictly conserved among the family members. [2] Recent structures and mutagenesis studies for the arabinanase Abnx from Penicillium chrysogenum 31B strengthened this assignment. Mutations to alanine or glutamine of their equivalent Glu174 and Glu246 lead to inactive enzyme. [4]
Three-dimensional structures
The crystal structure of Arb93A reveals a six-bladed β-propeller fold characteristic of sialidases of clan GH-E. [2, 6], The catalytic machinery is however very different from that of sialidases.
Family Firsts
First sterochemistry determination
This was determined with the Penicillium chrysogenum Abxn enzyme using 1H-NMR to identify the transglycosylation products [3]
First catalytic nucleophile identification This was proposed based on the structure of Fusarium graminearum Arb93A [2]
First general acid/base residue identification This was proposed based on the structure of Fusarium graminearum Arb93A [2]
First 3-D structure Determined for Fusarium graminearum Arb93A by Carapito and co-workers [2]
References
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Sogabe Y, Kitatani T, Yamaguchi A, Kinoshita T, Adachi H, Takano K, Inoue T, Mori Y, Matsumura H, Sakamoto T and Tad, T. High-resolution structure of exo-arabinanase from
Penicillium chrysogenum. Acta Crystallogr D Biol Crystallogr 2011 May;67(Pt 5):415-22. doi:10.1107/S0907444911006299 pmid:21543843.
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Goddard-Borger ED, Carapito R, Jeltsch JM, Phalip V, Stick RV, Varrot A. α-l-Arabinofuranosylated pyrrolidines as arabinanase inhibitors. Chem Commun 2011 Sep 14;47(34):9684-6. doi:10.1039/C1CC13675E pmid:21773614.
- Gaskell A, Crennell S, and Taylor G. (1995). The three domains of a bacterial sialidase: a beta-propeller, an immunoglobulin module and a galactose-binding jelly-roll. Structure. 1995;3(11):1197-205. DOI:10.1016/s0969-2126(01)00255-6 |