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Difference between revisions of "Carbohydrate Esterase Family 2"
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== Substrate specificities == | == Substrate specificities == | ||
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+ | All of the well characterized carbohydrate esterase family 2 enzymes have been shown to remove acetate groups from the synthetic molecule, 4-nitrophenyl acetate (4p-NP-AcC) (Montanier et al. 2009; Till et al. 2013). Contrary to typical acetyl xylan esterases, CE2 family members are shown to have a strong preference for the deacetylation of xylopyranosides at positions 3 and 4 instead of the typical deacetylation at position 2. CE2 family members were also shown to have significant preference for deacetylation of glucopyranosyl and mannopyranosyl residues at the 6-O position and significantly preferred deacetylation of glucopyranosyl and mannopyranosyl residues relative to the deacetylation of xylopyranosides. For these reasons CE2 family members are considered to be 6-de-O-acetylases (Topakas et al. 2010). | ||
== Catalytic Residues == | == Catalytic Residues == |
Revision as of 10:40, 14 November 2020
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- Author: ^^^Bobby Lamont^^^
- Responsible Curators: ^^^Joel Weadge^^^ and ^^^Anthony Clarke^^^
Carbohydrate Esterase Family CE2 | |
Clan | |
Mechanism | |
Active site residues | |
CAZy DB link | |
https://www.cazy.org/CE3.html |
Substrate specificities
All of the well characterized carbohydrate esterase family 2 enzymes have been shown to remove acetate groups from the synthetic molecule, 4-nitrophenyl acetate (4p-NP-AcC) (Montanier et al. 2009; Till et al. 2013). Contrary to typical acetyl xylan esterases, CE2 family members are shown to have a strong preference for the deacetylation of xylopyranosides at positions 3 and 4 instead of the typical deacetylation at position 2. CE2 family members were also shown to have significant preference for deacetylation of glucopyranosyl and mannopyranosyl residues at the 6-O position and significantly preferred deacetylation of glucopyranosyl and mannopyranosyl residues relative to the deacetylation of xylopyranosides. For these reasons CE2 family members are considered to be 6-de-O-acetylases (Topakas et al. 2010).
Catalytic Residues
Kinetics and Mechanism
Three-dimensional structures
Family Firsts
- First characterized
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- First mechanistic insight
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- First 3-D structure
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