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Glycoside Hydrolase Family 44

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Glycoside Hydrolase Family GH44
Clan None specified, but Kitago et al. [1] and Nam et al. [2] suggest that it belongs to Clan GH-A.
Mechanism Retaining
Active site residues Catalytic proton donor/acceptor: Glu; catalytic nucleophile: Glu
CAZy DB link
https://www.cazy.org/GH44.html


Substrate specificities

Active on many substances, including cellooligosaccharides of DP4 and longer, carboxymethylcellulose, xylan, lichenan, Avicel (slightly), and xyloglucan, which appears to be the prime substrate [4,5].

This is an example of how to make references to a journal article [1]. (See the References section below). Multiple references can go in the same place like this [1, 2]. You can even cite books using just the ISBN [3]. References that are not in PubMed can be typed in by hand [4].


Kinetics and Mechanism

Content is to be added here.


Catalytic Residues

Clostridium thermocellum endoglucanase: catalytic proton donor/acceptor: Glu186; catalytic nucleophile: Glu359 [1]. Protein from metagenomic library: catalytic proton donor/acceptor: Glu221; catalytic nucleophile: Glu393 [2].Clostridium acetobutylicum endoglucanase: catalytic proton donor/acceptor: Glu180; catalytic nucleophile: Glu352 [3].


Three-dimensional structures

The first three-dimensional structure was by Kitago et al. [1], who found a TIM-like barrel domain and a beta-sandwich domain in a Clostridium thermocellum endoglucanase. Similar structures were found by Nam et al. [2] in a protein from a metagenomic library and Warner et al. [3] in a Clostridium acetobutylicum endoglucanase. Ca and Zn ions are found as ligands [1].


Family Firsts

First stereochemistry determination
Kitago et al. [1] found that the enzyme acts by a retaining mechanism. They observed that beta-anomer was preferentially formed during cyclohexaitol hydrolysis.
First catalytic nucleophile identification
Kitago et al. [1], by testing activity of E359Q mutant.
First general acid/base residue identification
Kitago et al. [1], by testing activity of E186Q mutant.
First 3-D structure
Kitago et al. [1] of an endoglucanase from Clostridium thermocellum. It had a resolution of 0.96 Å and allowed the identification of the catalytic residues and the mechanism.

References

  1. Kitago, Y., S. Karita, N. Watanabe, M. Kamiya, T. Aizawa, K. Sakka, and I. Tanaka. 2007. Crystal structure of Cel44 A, a glycoside hydrolase family 44 endoglucanase from Clostridium thermocellum. J. Biol. Chem. 282, 35703–35711. doi: 10.1074/jbc.M706835200.

    [Kitago]
  2. Nam, K. H., S.-J. Kim, and K. Y. Hwang. 2009. Crystal structure of CelM2, a bifunction­al glucanase–xylanase protein from a metagenomic library. Biochem. Biophys. Res. Comm. 383, 183–186. doi:10.1016/j.bbrc.2009.03.149.

    [Nam]
  3. Warner, C. D., J. A. Hoy, T. C. Shilling, M. J. Linnen, N. D. Ginder, C. F. Ford, R. B. Hon­zatko, and P. J. Reilly. 2010. Tertiary structure and characterization of a glycoside hydrolase family 44 endoglucanase from Clostridium acetobutylicum. Appl. Environ. Microbiol., 76, 338–346. doi:10.1128/AEM.02026-09.

    [Warner]
  4. Warner, C. D., R. M. Go, C. García-Salinas, C. Ford, and P. J. Reilly. Kinetic characterization of a glycoside hydrolase family 44 endoglucanase from Ruminococcus flavefaciens FD-1. Submitted for publication.

    [Warner]
  5. Najmudin, S., C. I. P. D. Guerreiro, A. L. Carvalho, J. A. M. Prates, M. A. S. Correia, V. D. Alves, L. M. A. Ferreira, M. J. Romao, H. J. Gilbert, D. N. Bolam, and C. M. G. A. Fontes. 2006. Xyloglucan Is recognized by carbohydrate-binding modules that interact with beta-glucan chains. J. Biol. Chem. 281, 8815–8828. doi: 10.1074/jbc.M510559200

    [Najmudin]