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Difference between revisions of "Glycoside Hydrolase Family 80"
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− | * [[Author]]: | + | * [[Author]]: [[User:Ryszard Brzezinski|Ryszard Brzezinski]] |
− | * [[Responsible Curator]]: | + | * [[Responsible Curator]]: [[User:Ryszard Brzezinski|Ryszard Brzezinski]] |
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== Substrate specificities == | == Substrate specificities == | ||
− | Glycoside hydrolase family GH80 is comprised of endo-acting beta-1,4-chitosanases of bacterial origin. The first characterized member was from a proteobacterium <cite>Park1999</cite> belonging to the Bacteroidetes/Chlorobi group <cite>Matsuda2001 Yi2004</cite>. At present (July 2011), GH80 is very small family, comprised of fewer than 20 members. | + | [[Glycoside hydrolase]] family GH80 is comprised of ''[[endo]]''-acting β-1,4-chitosanases of bacterial origin. The first characterized member was from a proteobacterium <cite>Park1999</cite> belonging to the Bacteroidetes/Chlorobi group <cite>Matsuda2001 Yi2004</cite>. At present (July 2011), GH80 is very small family, comprised of fewer than 20 members. |
Characterized GH80 members do not hydrolyze chitin or cellulose <cite>Park1999 Yi2004</cite>, and for one member, the chitosan hexa-oligosaccharide (GlcN)<sub>6</sub> is preferentially hydrolyzed into two molecules of the trisaccharide <cite>Shimono2002</cite>. | Characterized GH80 members do not hydrolyze chitin or cellulose <cite>Park1999 Yi2004</cite>, and for one member, the chitosan hexa-oligosaccharide (GlcN)<sub>6</sub> is preferentially hydrolyzed into two molecules of the trisaccharide <cite>Shimono2002</cite>. | ||
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== Catalytic Residues == | == Catalytic Residues == | ||
− | The chitosanases from family GH80 share a PROSITE signature motif <cite>Sigrist2010</cite> with the chitosanases from family [[GH46]] <cite>Tremblay2000</cite>. Together with [[GH24]], these three families comprise [[ | + | The chitosanases from family GH80 share a PROSITE signature motif <cite>Sigrist2010</cite> with the chitosanases from family [[GH46]] <cite>Tremblay2000</cite>. Together with [[GH24]], these three families comprise [[clan]] GH-I <cite>CAZYGHpage</cite>. |
A site-directed mutagenesis study of the chitosanase A from ''Matsuebacter chitosanotabidus'' 3001 (new name: ''Mitsuaria chitosanitabida'' <cite>Amakata2005</cite>) identified two residues as essentiel for catalysis: Glu-121 (in the sequence YP<u>E</u>NG)and Glu-141 (in the sequence DY<u>E</u>AA) <cite>Shimono2002</cite>. | A site-directed mutagenesis study of the chitosanase A from ''Matsuebacter chitosanotabidus'' 3001 (new name: ''Mitsuaria chitosanitabida'' <cite>Amakata2005</cite>) identified two residues as essentiel for catalysis: Glu-121 (in the sequence YP<u>E</u>NG)and Glu-141 (in the sequence DY<u>E</u>AA) <cite>Shimono2002</cite>. | ||
== Three-dimensional structures == | == Three-dimensional structures == | ||
− | No three-dimensional structure has yet been solved for this family. As a member of [[ | + | No three-dimensional structure has yet been solved for this family. As a member of [[clan]] GH-I, a lysozyme-like α-β fold is suggested, based on known [[GH24]] and [[GH46]] structures. |
== Family Firsts == | == Family Firsts == | ||
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#Amakata2005 pmid=16166689 | #Amakata2005 pmid=16166689 | ||
#CAZYGHpage http://www.cazy.org/Glycoside-Hydrolases.html | #CAZYGHpage http://www.cazy.org/Glycoside-Hydrolases.html | ||
+ | </biblio> | ||
[[Category:Glycoside Hydrolase Families|GH080]] | [[Category:Glycoside Hydrolase Families|GH080]] |
Latest revision as of 13:15, 18 December 2021
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Glycoside Hydrolase Family GH80 | |
Clan | GH-I |
Mechanism | not determined |
Active site residues | inferred |
CAZy DB link | |
https://www.cazy.org/GH80.html |
Substrate specificities
Glycoside hydrolase family GH80 is comprised of endo-acting β-1,4-chitosanases of bacterial origin. The first characterized member was from a proteobacterium [1] belonging to the Bacteroidetes/Chlorobi group [2, 3]. At present (July 2011), GH80 is very small family, comprised of fewer than 20 members.
Characterized GH80 members do not hydrolyze chitin or cellulose [1, 3], and for one member, the chitosan hexa-oligosaccharide (GlcN)6 is preferentially hydrolyzed into two molecules of the trisaccharide [4].
Kinetics and Mechanism
The stereochemistry of the hydrolytic reaction catalyzed by GH80 members has not yet been studied. However, sequence similarity with members of Clan GH-I suggests that these enzymes may operate with inversion of the anomeric configuration (see Catalytic Residues, below)
Catalytic Residues
The chitosanases from family GH80 share a PROSITE signature motif [5] with the chitosanases from family GH46 [6]. Together with GH24, these three families comprise clan GH-I [7].
A site-directed mutagenesis study of the chitosanase A from Matsuebacter chitosanotabidus 3001 (new name: Mitsuaria chitosanitabida [8]) identified two residues as essentiel for catalysis: Glu-121 (in the sequence YPENG)and Glu-141 (in the sequence DYEAA) [4].
Three-dimensional structures
No three-dimensional structure has yet been solved for this family. As a member of clan GH-I, a lysozyme-like α-β fold is suggested, based on known GH24 and GH46 structures.
Family Firsts
- First primary sequence determination
- Chitosanase ChoA from Matsuebacter chitosanotabidus 3001 (now Mitsuaria chitosanitabida) [1, 8]
- First stereochemistry determination
- Not yet determined
- First catalytic nucleophile identification
- Not yet identified
- First general acid/base residue identification
- Not yet identified
- First 3-D structure
- Not yet determined
References
- Park JK, Shimono K, Ochiai N, Shigeru K, Kurita M, Ohta Y, Tanaka K, Matsuda H, and Kawamukai M. (1999). Purification, characterization, and gene analysis of a chitosanase (ChoA) from Matsuebacter chitosanotabidus 3001. J Bacteriol. 1999;181(21):6642-9. DOI:10.1128/JB.181.21.6642-6649.1999 |
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Matsuda, Y., Iida, I., Shinogi, T., Kakutani, K., Nonomura, T., Toyoda, H. (2001) In vitro suppression of mycelial growth of Fusarium oxysporum by extracellular chitosanase of Sphingobacterium multivorum and cloning of the chitosanase gene csnSM1. J. Gen. Plant Pathol. 67, 318-324.
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Yi, J.-H., Jang, H.-K., Lee, S.-J., Lee, K.-E., Choi, S.-G. (2004) Purification and properties of chitosanase from chitinolytic beta-Proteobacterium KNU3. J. Microbiol. Biotechnol. 14, 337-343.
- Shimono K, Shigeru K, Tsuchiya A, Itou N, Ohta Y, Tanaka K, Nakagawa T, Matsuda H, and Kawamukai M. (2002). Two glutamic acids in chitosanase A from Matsuebacter chitosanotabidus 3001 are the catalytically important residues. J Biochem. 2002;131(1):87-96. DOI:10.1093/oxfordjournals.jbchem.a003081 |
- Sigrist CJ, Cerutti L, de Castro E, Langendijk-Genevaux PS, Bulliard V, Bairoch A, and Hulo N. (2010). PROSITE, a protein domain database for functional characterization and annotation. Nucleic Acids Res. 2010;38(Database issue):D161-6. DOI:10.1093/nar/gkp885 |
- Tremblay H, Blanchard J, and Brzezinski R. (2000). A common molecular signature unifies the chitosanases belonging to families 46 and 80 of glycoside hydrolases. Can J Microbiol. 2000;46(10):952-5. | Google Books | Open Library
- Amakata D, Matsuo Y, Shimono K, Park JK, Yun CS, Matsuda H, Yokota A, and Kawamukai M. (2005). Mitsuaria chitosanitabida gen. nov., sp. nov., an aerobic, chitosanase-producing member of the 'Betaproteobacteria'. Int J Syst Evol Microbiol. 2005;55(Pt 5):1927-1932. DOI:10.1099/ijs.0.63629-0 |