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Difference between revisions of "Glycoside Hydrolase Family 9"
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== Substrate specificities == | == Substrate specificities == | ||
− | Members of family GH9 are mainly cellulases ([{{EClink}}3.2.1.4 EC 3.2.1.4]), including primarily endo-glucanases and a few processive endo-glucanases. Indeed, as one of the first glycoside hydrolase families classified by hydrophobic cluster analysis, GH9 was previously known as "Cellulase Family E" <cite>Henrissat1989 Gilkes1991</cite>. More recently, certain GH9 members from ''Clostridia'' <cite>Ravachol2016</cite> and ''Bacteroides'' <cite>Larsbrink2014 Foley2019</cite> have been shown to be endo-xyloglucanases ([{{EClink}}3.2.1.151 EC 3.2.1.151]) or mixed-linkage endo-glucanases ([{{EClink}}3.2.1.73 EC 3.2.1.73]). Exo-beta-glucosaminidases are also found in this family <cite>Honda2016 Wu2018</cite>. | + | Members of family GH9 are mainly cellulases ([{{EClink}}3.2.1.4 EC 3.2.1.4]), including primarily endo-glucanases and a few processive endo-glucanases. Indeed, as one of the first glycoside hydrolase families classified by hydrophobic cluster analysis, GH9 was previously known as "Cellulase Family E" <cite>Henrissat1989 Gilkes1991</cite>. More recently, certain GH9 members from ''Clostridia'' <cite>Ravachol2016</cite> and ''Bacteroides'' <cite>Larsbrink2014 Foley2019</cite> have been shown to be endo-xyloglucanases ([{{EClink}}3.2.1.151 EC 3.2.1.151]) or mixed-linkage endo-glucanases ([{{EClink}}3.2.1.73 EC 3.2.1.73]). Exo-beta-glucosaminidases ([{{EClink}}3.2.1.165 EC 3.2.1.165]) are also found in this family <cite>Honda2016 Wu2018</cite>. |
All of the processive endoglucanases contain a family 3c CBM rigidly attached to the C-terminus of the GH9 catalytic domain (cd) <cite>Sakon1997</cite>. This domain is part of the active site and is essential for processivity <cite>Sakon1997</cite>. [[CBM3]]c domains bind weakly to cellulose as they lack several of the conserved aromatic residues that are important for cellulose binding in family 3a and family 3b members <cite>Tormo1996</cite>. All known plant cellulases belong to GH9, and most of the other members are eubacterial although there are two archael members and some fungal, earthworm, arthropod, chordate, echinoderma and molusk members. There are two subgroups in GH9, E1 which contains only cellulases from bacteria, including ones from both aerobes and anaeobes, and E2 which includes some bacterial and all nonbacterial cellulases <cite>Tomme1995</cite>. An evolutionary study shows that the eucaryote members contain two monophyletic groups that are ancient; one including all animal members and the other including all plant members <cite>Davison2005</cite>. All known processive endoglucanase genes are in subgroup E1. | All of the processive endoglucanases contain a family 3c CBM rigidly attached to the C-terminus of the GH9 catalytic domain (cd) <cite>Sakon1997</cite>. This domain is part of the active site and is essential for processivity <cite>Sakon1997</cite>. [[CBM3]]c domains bind weakly to cellulose as they lack several of the conserved aromatic residues that are important for cellulose binding in family 3a and family 3b members <cite>Tormo1996</cite>. All known plant cellulases belong to GH9, and most of the other members are eubacterial although there are two archael members and some fungal, earthworm, arthropod, chordate, echinoderma and molusk members. There are two subgroups in GH9, E1 which contains only cellulases from bacteria, including ones from both aerobes and anaeobes, and E2 which includes some bacterial and all nonbacterial cellulases <cite>Tomme1995</cite>. An evolutionary study shows that the eucaryote members contain two monophyletic groups that are ancient; one including all animal members and the other including all plant members <cite>Davison2005</cite>. All known processive endoglucanase genes are in subgroup E1. |
Revision as of 09:32, 4 April 2019
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- Authors: ^^^David Wilson^^^ and ^^^Breeanna Urbanowicz^^^
- Responsible Curator: ^^^David Wilson^^^
Glycoside Hydrolase Family GH9 | |
Clan | not assigned |
Mechanism | inverting |
Active site residues | known/known |
CAZy DB link | |
https://www.cazy.org/GH9.html |
Substrate specificities
Members of family GH9 are mainly cellulases (EC 3.2.1.4), including primarily endo-glucanases and a few processive endo-glucanases. Indeed, as one of the first glycoside hydrolase families classified by hydrophobic cluster analysis, GH9 was previously known as "Cellulase Family E" [1, 2]. More recently, certain GH9 members from Clostridia [3] and Bacteroides [4, 5] have been shown to be endo-xyloglucanases (EC 3.2.1.151) or mixed-linkage endo-glucanases (EC 3.2.1.73). Exo-beta-glucosaminidases (EC 3.2.1.165) are also found in this family [6, 7].
All of the processive endoglucanases contain a family 3c CBM rigidly attached to the C-terminus of the GH9 catalytic domain (cd) [8]. This domain is part of the active site and is essential for processivity [8]. CBM3c domains bind weakly to cellulose as they lack several of the conserved aromatic residues that are important for cellulose binding in family 3a and family 3b members [9]. All known plant cellulases belong to GH9, and most of the other members are eubacterial although there are two archael members and some fungal, earthworm, arthropod, chordate, echinoderma and molusk members. There are two subgroups in GH9, E1 which contains only cellulases from bacteria, including ones from both aerobes and anaeobes, and E2 which includes some bacterial and all nonbacterial cellulases [10]. An evolutionary study shows that the eucaryote members contain two monophyletic groups that are ancient; one including all animal members and the other including all plant members [11]. All known processive endoglucanase genes are in subgroup E1. Most plant GH9 enzymes studied to date are endoglucanases ("cellulases", EC 3.2.1.4) with little or no activity on crystalline cellulose, but with discernible activity on soluble cellulose derivatives, including carboxymethyl cellulose (CMC), phosphoric acid swollen non-crystalline cellulose, and numerous plant polysaccharides including xylan, 1,3-1,4-ß-glucan, xyloglucan, and glucomannan [12, 13, 14, 15, 16]. Due to their ubiquity and large numbers, the phylogeny of plant GH9 enzymes has been further sub-divided into three classes [17], which are described in detail on the plant GH9 endoglucanase subpage.
Kinetics and Mechanism
GH9 enzymes operate with inversion of anomeric stereochemistry. The processive endoglucanase, Cel9A from Thermobifda fusca, has high activity on bacterial cellulose and is the only cellulase tested that can degrade crystalline regions in bacterial cellulose by itself although it prefers amorphous regions [18]. A related cellulase in Clostridium phytofermentans, which is the only family 9 cellulase encoded in its genome, has been shown to be essential for cellulose degradation by this organism. This is the only case where a single cellulase has been shown to be essential for growth on cellulose [19].
Catalytic Residues
There is a conserved Glu residue that functions as a catalytic general acid and two conserved Asp residues that bind the catalytic water, with one functioning as the catalytic general base; mutation of the other also greatly reduces activity on all substrates [20]. Mutation of the conserved Glu to Ala, Gly or Gln reduced activity to less than >0.5% of WT on all forms of cellulose but the Ala and Gly mutant enzymes had higher than WT activity on dinitrophenyl-cellobioside which has a good leaving group, proving that this residue functions as the catalytic acid [20]. Mutation of either of two conserved Asp residues that bound the catalytic water to Ala or Asn reduced activity to less then 2% of WT on all cellulosic substrates. However, only one of the Ala mutant enzymes showed azide rescue proving that it was the actual catalytic base [21].
Three-dimensional structures
All reported GH9 catalytic domain structures have an (a/a)6 barrel fold that contains an open active site cleft that contains at least six sugar binding subsites -4 to +2 [5, 8, 22]. In processive endoglucanases the catalytic domain is joined to a family 3c carbohydrate-binding module that is aligned with the active site cleft [8].
Family Firsts
- First stereochemistry determination
- The stereospecificity of three family 9 cellulases were all determined to be inverting by NMR [23].
- First general base identification
- Asp 58 in T. fusca Cel9A was shown to be the general base by site directed mutagenesis and azide rescue [21].
- First general acid residue identification
- Glu555 was shown to be the catalytic acid in C. thermocellum CelD by site directed mutagenesis [24].
- First 3-D structure
- The structure of endocellulase CelD from Clostridium thermocellum was determined by X-ray crystallography (PDB ID 1clc) [25].
References
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Chen, Arthur J. Stipanovic, William T. Winter, David B. Wilson and Young-Jun Kim. Effect of digestion by pure cellulases on crystallinity and average chain length for bacterial and microcrystalline celluloses. Cellulose 2007: 14: 283-293.
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Lascombe, M.B., Souchon, H., Juy, M., Alzari, P.M. Three-Dimensional Structure of Endoglucanase D at 1.9 Angstroms Resolution. Deposited 1995, unpublished. PDB ID 1clc