Difference between revisions of "Glycoside Hydrolase Family 151"

Revision as of 03:17, 4 June 2020

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Author: ^^^Casper Wilkens^^^, ^^^David Teze^^^, and ^^^Birgitte Zeuner^^^
Responsible Curator: ^^^Birgitte Zeuner^^^

Glycoside Hydrolase Family GH151
Clan	None
Mechanism	Retaining (inferred)
Active site residues	Not known
CAZy DB link
http://www.cazy.org/GH151.html

Substrate specificities

Members of GH151 are bacterial enzymes presenting α-L-fucosidase activity (EC 3.2.1.51) [1, 2, 3]. Activity has been observed on 4-nitrophenyl-α-L-fucopyranoside (pNP-α-L-Fuc) [2, 3] and on 2-chloro-4-nitrophenyl-α-L-fucopyranoside (CNP-α-L-Fuc) [1]. GH151 α-L-fucosidases are reportedly unable to catalyze hydrolysis of human milk oligosaccharide structures 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) [1, 3], but slight activity has been observed on the blood group H antigen disaccharide Fuc-α-1,2-Gal [1]. No activity was observed on fucosylated xyloglucan [3].

The first characterized members of GH151 were perceived as members of GH29 due to their α-L-fucosidase activity [1, 3]. However, phylogenetic analysis and sequence alignment revealed poor homology to GH29 [1, 3]. Based on the low sequence similarity to GH29, it was suggested that a new GH family be created [2]. Sequence homology to β-galactosidase trimerization domains has been reported [1, 3]. Consequently, one GH151 α-L-fucosidase was tested for activity on pNP-β-D-Gal, pNP-β-D-Glc, and pNP-β-D-Lac, but none was observed [3].

Kinetics and Mechanism

The catalytic mechanism of GH151 has not been determined, but based on reports that two members of GH151 can catalyze transglycosylation using pNP-α-L-Fuc as donor substrate [2, 3], a retaining mechanism has been inferred.

Catalytic Residues

The catalytic residues of GH151 are unknown.

Three-dimensional structures

No three-dimensional structures have been solved for GH151.

Family Firsts

First stereochemistry determination: Not yet identified.
First catalytic nucleophile identification: Not yet identified.
First general acid/base residue identification: Not yet identified.
First 3-D structure: Not yet solved.

References

All Medline abstracts: PubMed

@@ Line 28: / Line 28: @@
 == Substrate specificities ==
-Members of [[GH151]] have α-L-fucosidase activity (EC 3.2.1.51) <cite>Sela2012 Benesova2015 Lezyk2016</cite>. Activity has been observed on 4-nitrophenyl-α-L-fucopyranoside (pNP-α-L-Fuc) <cite>Benesova2015 Lezyk2016</cite> and on 2-chloro-4-nitrophenyl-α-L-fucopyranoside (CNP-α-L-Fuc) <cite>Sela2012</cite>. GH151 α-L-fucosidases are reportedly unable to catalyze hydrolysis of human milk oligosaccharide structures 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) <cite>Sela2012 Lezyk2016</cite>, but slight activity has been observed on the blood group H antigen disaccharide Fuc-α-1,2-Gal <cite>Sela2012</cite>. No activity was observed on fucosylated xyloglucan <cite>Lezyk2016</cite>.
+Members of [[GH151]] are bacterial enzymes presenting α-L-fucosidase activity (EC 3.2.1.51) <cite>Sela2012 Benesova2015 Lezyk2016</cite>. Activity has been observed on 4-nitrophenyl-α-L-fucopyranoside (''p''NP-α-L-Fuc) <cite>Benesova2015 Lezyk2016</cite> and on 2-chloro-4-nitrophenyl-α-L-fucopyranoside (CNP-α-L-Fuc) <cite>Sela2012</cite>. GH151 α-L-fucosidases are reportedly unable to catalyze hydrolysis of human milk oligosaccharide structures 2'-fucosyllactose (2'FL) and 3-fucosyllactose (3FL) <cite>Sela2012 Lezyk2016</cite>, but slight activity has been observed on the blood group H antigen disaccharide Fuc-α-1,2-Gal <cite>Sela2012</cite>. No activity was observed on fucosylated xyloglucan <cite>Lezyk2016</cite>.
-The first characterized members of GH151 were perceived as members of [[GH29]] due to their α-L-fucosidase activity <cite>Sela2012 Lezyk2016</cite>. However, phylogenetic analysis and sequence alignment revealed poor homology to GH29 <cite>Sela2012 Lezyk2016</cite>. Based on the low sequence similarity to GH29, it was suggested that a new GH family be created <cite>Benesova2015</cite>. Sequence homology to β-galactosidase trimerization domains has been reported <cite>Sela2012 Lezyk2016</cite>. Consequently, one GH151 α-L-fucosidase was tested for activity on pNP-β-D-Gal, pNP-β-D-Glc, and pNP-β-D-Lac, but none was observed <cite>Lezyk2016</cite>.
+The first characterized members of GH151 were perceived as members of [[GH29]] due to their α-L-fucosidase activity <cite>Sela2012 Lezyk2016</cite>. However, phylogenetic analysis and sequence alignment revealed poor homology to GH29 <cite>Sela2012 Lezyk2016</cite>. Based on the low sequence similarity to GH29, it was suggested that a new GH family be created <cite>Benesova2015</cite>. Sequence homology to β-galactosidase trimerization domains has been reported <cite>Sela2012 Lezyk2016</cite>. Consequently, one GH151 α-L-fucosidase was tested for activity on pNP-β-D-Gal, ''p''NP-β-D-Glc, and ''p''NP-β-D-Lac, but none was observed <cite>Lezyk2016</cite>.
 == Kinetics and Mechanism ==
-The catalytic mechanism of GH151 has not been determined, but based on reports that two members of GH151 can catalyze transglycosylation using pNP-α-L-Fuc as donor substrate <cite>Benesova2015 Lezyk2016</cite>, a retaining mechanism has been inferred.
+The catalytic mechanism of GH151 has not been determined, but based on reports that two members of GH151 can catalyze transglycosylation using ''p''NP-α-L-Fuc as donor substrate <cite>Benesova2015 Lezyk2016</cite>, a retaining mechanism has been inferred.
 == Catalytic Residues ==