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From Proteopedia
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===The GH32 Family=== | ===The GH32 Family=== | ||
| - | The GH32 family includes over 370 members from plants, fungi and bacteria. This family contains not only invertases but other fructofuranosidases like insulinase, transfructosidase or inulinase. Family GH32 enzymes are retaining enzymes, so the ''Thermotoga maritima'' β-fructosidase is a retaining enzyme as we said in the introduction. | + | The GH32 family includes over 370 members from plants, fungi and bacteria. This family contains not only invertases but other fructofuranosidases like insulinase, transfructosidase or inulinase. Family GH32 enzymes are retaining enzymes, so the ''Thermotoga maritima'' β-fructosidase is a retaining enzyme as we said in the introduction.This molecular mechanism appears conserved in the sequences of the different GH32 family members. Members of the GH32 family share a common feature which are two important amino acid residues. These two amino acid residues constitute the catalytic machinery accountable to the glycosidic bond cleavage. And they have been identified as an aspartate situated near the N-terminus and acting as the nucleophile, and a glutamate acting as the general acide/base. |
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| - | They share a common feature which are two important amino acid residues. These two amino acid residues constitute the catalytic machinery accountable to the glycosidic bond cleavage. And they have been identified as an aspartate situated near the N-terminus and acting as the nucleophile, and a glutamate acting as the general acide/base. | ||
==Structure== | ==Structure== | ||
Revision as of 19:58, 31 December 2012
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Thermotoga maritima β-fructosidase (invertase)
Contents |
Introduction
The β-fructosidase (β-D-fructofuranosidase EC 3. 2. 1. 26.) of the thermophilic baterium Thermotoga maritima is an enzyme which hydrolyzes sucrose to release fructose and glucose. 
This enzyme achieves the hydrolysis with a retention molecular mechanism. Actually, the invertase hydrolyses the D-sucrose to form the D-fructose and the D-glucose. So, the substrate anomeric configuration is conserved in products. The β-fructosidase belongs to the GH32 (Glycoside hydrolysases 32) according to the sequence-based classification of glycoside hydrolysases.
Glycoside Hydrolases and the GH32 family
The Glycoside Hydrolysases
Glycoside hydrolases (GH) constitute a widespread enzyme group presenting a huge variety of protein folds and substrate specificities. They are classified into EC 3.2.1 as enzymes catalyzing the hydrolysis of O-, N- and S-linked glycosides. The enzymatic hydrolysis of glycosidic bonds can be realised by two ways : inversion or retention of the product anomeric configuration compared with the substrate anomeric configuration. So we can classify Glycoside hydrolases according to these mechanismes. But we can alson make a classification depending on three-dimensional structure or on sequence. The classification based on sequence allowed to define more than 120 families of Glycoside hydrolases : GH9, GH14... The Thermotoga maritima β-fructosidase belongs to the GH32 family.
The GH32 Family
The GH32 family includes over 370 members from plants, fungi and bacteria. This family contains not only invertases but other fructofuranosidases like insulinase, transfructosidase or inulinase. Family GH32 enzymes are retaining enzymes, so the Thermotoga maritima β-fructosidase is a retaining enzyme as we said in the introduction.This molecular mechanism appears conserved in the sequences of the different GH32 family members. Members of the GH32 family share a common feature which are two important amino acid residues. These two amino acid residues constitute the catalytic machinery accountable to the glycosidic bond cleavage. And they have been identified as an aspartate situated near the N-terminus and acting as the nucleophile, and a glutamate acting as the general acide/base.
Structure
Active site
The β-sandwich
Applications
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