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Glycoside Hydrolase Family 19
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- Author: ^^^Vincent Eijsink^^^
- Responsible Curator: ^^^Vincent Eijsink^^^
Glycoside Hydrolase Family GHnn | |
Clan | GH-x |
Mechanism | retaining/inverting |
Active site residues | known/not known |
CAZy DB link | |
http://www.cazy.org/fam/GHnn.html |
Substrate specificities
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Kinetics and Mechanism
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Catalytic Residues
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Three-dimensional structures
The catalytic domains of family 19 chitinases have a lysozyme-like fold with rather shallow substrate-binding grooves that are not particularly rich in aromatic residues (see Figure). The catalytic domains of family 19 chitinases share a common fold with family 46 chitosanases and with lysozymes in families 22, 23 and 24 of glycoside hydrolases (Holm and Sander, 1994; Hart et al., 1995; Monzingo et al., 1996). For a long time, structural information for these chitinases was limited to the structures of two class II plant enzymes (Hart et al., 1993; Hahn et al., 2000). Recently, the structures of bacterial family 19 chitinases have become available (Hoell et al., 2006; Kezuka et al., 2006, class IV), as well as the structures of class I (Ubhayasekera et al. 2007) and class IV (Ubhayasekera et al. 2009) GH19 chitinases from plants.
The structures of bacterial GH19 chitinases revealed several differences from the previously reported plant structures (Hoell et al., 2006; Kezuka et al., 2006; see Figure). Compared to plant enzymes, the bacterial enzymes lack a C-terminal extension and three loops, some of which are thought to be flexible (Ubhayasekera et al., 2007; Fukamizo et al., 2009).
There is no structural information for GH19 enzymes in complex with their substrate. In 2008, Huet et al published the structure of a complex of papaya family 19 chitinase with GlcNAc units bound in the -2 and +1 subsites. This structure has been used to build a plausible model of a complex with (GlcNAc)4. This is the first structure (half experimental, half modeled) of an enzyme-substrate complex.
Family Firsts
First primary sequence determination: Bean leaf chitinase (Broglie et al., 1986)
First stereochemistry determination: Yam chitinase, by NMR (Fukamizo et al., 1995) and Bean chitinase, by HPLC (Iseli et al., 1996)
First general base residue identification: Chitinase from barley; determination by site-directed mutagenesis (Andersen et al., 1997), structural analysis (Hart et al., 1993) and modelling (Brameld and Goddard, 1998). Additional support from structure determination and modelling of a papaya chitinase (Huet et al., 2008).
First general acid residue identification: Chitinase from barley; determination by site-directed mutagenesis (Andersen et al., 1997), structural analysis (Hart et al., 1993) and modelling (Brameld and Goddard, 1998). Additional support from structure determination and modelling of a papaya chitinase (Huet et al., 2008).
First 3-D structure: Barley chitinase (Hart et al., 1993).