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Difference between revisions of "Carbohydrate Binding Module Family 62"

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== Ligand specificities ==
 
== Ligand specificities ==
 +
The only known crystallographic structure of a carbohydrate-binding module of family 62 is ''Ct''CBM62. Moreover, its structure has been solved in complex with a xyloglucan oligosaccharide, a 6<sup>1</sup>-α-D-galactosyl mannotriose (GM3) or arabinose <cite>Montanier2011</cite>. These crystal structures of ''Ct''CBM62 in complex with its ligands revealed that the interactions between the protein and α-L-arabinopyranose and α-D-galactopyranose are highly conserved. The data showed that an axial O4 is a key determinant for the specificity of ''Ct''CBM62, explaining why the ligand binding pocket targets galactose and arabinopyranose, as opposed to mannose, glucose and xylose.
  
<nowiki>The only known crystallographic structure of a carbohydrate-binding module of family 62 is the CtCBM62 one. Moreover, its structure has been solved in complex with a xyloglucan oligosaccharide, a 61-α-D-galactosyl mannotriose (GM3) or arabinose. Those sugar complexed crystal structures of CtCBM62 revealed that the interactions between the protein and the α-L pyranose form of the pentose sugar arabinose and galactose are highly conserved. Recognition of an axial O4 is thus a key determinant for the specificity of CtCBM62 for galactose and arabinopyranose, as opposed to mannose, glucose and xylose.
+
Isothermal titration calorimetry revealed affinity for a wide range of galactose and/or arabinose containing polysaccharides such as galactomannan, tamarind xyloglucan, arabinogalactan and arabinan. The ligand-binding site is located in the the loops that connect the β-sheets. ''Ct''CBM62 recognises the non-reducing terminal sugars (arabinopyranose or galactose) of oligosaccharides and polysaccharides.
 
 
Isothermal titration calorimetry revealed affinity for a wild set of galactose and/or arabinose containing polysaccharides such as galactomannan, xyloglucan, arabinogalactan and arabinan. Regarding the location of the ligand-binding site, in the loops that connect the β-sheets, CtCBM62 recognises terminal sugars.      </nowiki>
 
 
 
 
 
Mention here all major natural ligand specificities that are found within a given family (also plant or mammalian origin). Certain linkages and promiscuity would also be mentioned here if biologically relevant.
 
 
 
''Note: Here is an example of how to insert references in the text, together with the "biblio" section below:'' Please see these references for an essential introduction to the CAZy classification system: <cite>DaviesSinnott2008 Cantarel2009</cite>. CBMs, in particular, have been extensively reviewed <cite>Boraston2004 Hashimoto2006 Shoseyov2006 Guillen2010</cite>.
 
  
 
== Structural Features ==
 
== Structural Features ==
''Content in this section should include, in paragraph form, a description of:''
 
* '''Fold:'''
 
  
The crystal structure of CtCBM62 presents a classic β-jelly-roll fold, consisting of five major antiparallel β-strands on one face (β1, 2, 4, 5 and 7) and three antiparallel β-strands on the other face (β3, 6 and 8). Two α-helixes and five loops on the top of the β-jelly-roll complete the structure. A single structural calcium ion is found between the beginning of strand β-8 and the end of helix α-1. It displays typical hepta-coordination and is coordinated to the main-chain O of residues Lys 27, Asp 32 and Ala 132, the Oε2 of Asp 30 and Glu 133, and a bidentate interaction with both the main-chain carbonyl and Oε2 of Thr 35. The calcium ions in each molecule in the asymmetric unit are face to face (distant of 12.33 Å), positioning the loops containing the residues Asp 30, Gly 31 and Asp 32 opposite each other and at a distance of ≈ 4 Å.    
+
The structure of ''Ct''CBM62 comprises residues 739-878 of full length ''Ct''Xyl5A <cite>Correia2011</cite>. It presents a classic β-jelly-roll fold, consisting of five antiparallel β-strands on one face (β1, 2, 4, 5 and 7) and three antiparallel β-strands on the other face (β3, 6 and 8). Two α-helixes and five loops on top of the β-jelly-roll complete the structure. A single structural calcium ion is found between the beginning of strand β-8 and the end of helix α-1. It displays typical hepta-coordination and is coordinated to the main-chain O of residues Lys 25, Asp 30 and Ala 130, the Oε2 of Asp 28 and Glu 131, and a bidentate interaction with both the main-chain carbonyl and Oε2 of Thr 33.
  
Structural fold (beta trefoil, beta sandwich, etc.)
+
The ligand binding site is formed by the loops on top of the β-jelly-roll, comprising a pocket ≈ 7.5 Å wide and ≈ 5 Å deep. ''Ct''CBM62 is thus a [[Carbohydrate-binding_modules#Types|type C]] CBM. The galactopyranose moiety of both xyloglucan oligosaccharides and GM3 is bound to ''Ct''CBM62 through hydrogen bonds with the side-chains of Asp 36, Arg 65, Tyr 68 and Arg 71 in the shallow binding pocket, while the indole side-chain of Trp 16 makes a hydrophobic interaction with the sugar ring. The OH of Tyr 68 hydrogen bonds to the O2 of Gal, while an NH2 of Arg 65 also interacts with the C2 hydroxyl of the hexose sugar. O3 of the sugar ring makes a polar contact with NH2 of Arg 65 and the backbone O of Asp 36. The C4 hydroxyl is tetra coordinated by a NH2 of Arg 65, both side-chain oxygens of Asp 36 and an NH2 of Arg 71, while the second amine group of Arg 71 hydrogen bonds to the oxygen ring of Gal. The xylose moiety of xyloglucan oligosaccharide does not interact with CtCBM62, but the O of the β-1,2 linkage binds to the OH of Tyr 68 and an NH2 of Arg 71. The arabinopyranose is bound to ''Ct''CBM62 in a similar way to galactose, except that the hydroxyl of C2 is hydrogen bonded only to the OH of Tyr 68.
* '''Type:''' Include here Type A, B, or C and properties
 
* '''Features of ligand binding:''' Describe CBM binding pocket location (Side or apex) important residues for binding (W, Y, F, subsites), interact with reducing end, non-reducing end, planar surface or within polysaccharide chains. Include examples pdb codes. Metal ion dependent. Etc.
 
  
 
== Functionalities ==  
 
== Functionalities ==  
''Content in this section should include, in paragraph form, a description of:''
+
''Ct''CBM62 targets polysaccharides containing terminal D-galactose or L-arabinopyranose residues, whereas the appended catalytic domain ''Ct''Xyl5A from family GH5 is an arabinoxylan-specific xylanase <cite>Correia2011</cite>. It is possible that the primary substrate for ''Ct''Xyl5A is an arabinoxylan that also contains D-galactose side chains recognized by ''Ct''CBM62 or that arabinoxylans are in close association with polysaccharides containing terminal D-galactose or L-arabinopyranose residues.
* '''Functional role of CBM:''' Describe common functional roles such as targeting, disruptive, anchoring, proximity/position on substrate.
+
 
* '''Most Common Associated Modules:''' 1. Glycoside Hydrolase Activity; 2. Additional Associated Modules (other CBM, FNIII, cohesin, dockerins, expansins, etc.)
+
It has been demonstrated that in the presence of calcium, ''Ct''CBM62 binds ca. 200- and 100-fold more tightly to the galactosyl side-chains of galactomannan and xyloglucan, respectively, compared to galactose. Such increased binding to multivalent ligands is a classic example of avidity effects <cite>Boraston2002 Vijayan1999</cite>.
* '''Novel Applications:'''  Include here if CBM has been used to modify another enzyme, or if a CBM was used to label plant/mammalian tissues? Etc.
 
  
 
== Family Firsts ==
 
== Family Firsts ==
 
;First Identified
 
;First Identified
:Insert archetype here, possibly including ''very brief'' synopsis.
+
 
 +
''Ct''CBM62 from the ''Clostridium thermocellum'' multi-modular xylanase CtXyl5A.
 +
 
 
;First Structural Characterization
 
;First Structural Characterization
:Insert archetype here, possibly including ''very brief'' synopsis.
+
 
 +
The first available crystal structure and the first complex structure of a CBM62 is from ''Ct''CBM62.
  
 
== References ==
 
== References ==
 
<biblio>
 
<biblio>
#Cantarel2009 pmid=18838391
+
#Montanier2011 pmid=21454512
#DaviesSinnott2008 Davies, G.J. and Sinnott, M.L. (2008) Sorting the diverse: the sequence-based classifications of carbohydrate-active enzymes. Biochem. J. (BJ Classic Paper, online only). [http://dx.doi.org/10.1042/BJ20080382 DOI: 10.1042/BJ20080382]
+
#Correia2011 pmid=21378160
#Boraston2004 pmid=15214846
+
#Boraston2002 pmid=11849546
#Hashimoto2006 pmid=17131061
+
#Vijayan1999 pmid=10607664
#Shoseyov2006 pmid=16760304
 
#Guillen2010 pmid=19908036
 
 
</biblio>
 
</biblio>
  
 
[[Category:Carbohydrate Binding Module Families|CBM062]] <!-- ATTENTION: Make sure to replace "nnn" with a three digit family number, e.g. "032" or "105" etc., for proper sorting of the page by family number. -->
 
[[Category:Carbohydrate Binding Module Families|CBM062]] <!-- ATTENTION: Make sure to replace "nnn" with a three digit family number, e.g. "032" or "105" etc., for proper sorting of the page by family number. -->

Latest revision as of 13:14, 18 December 2021

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CAZy DB link
https://www.cazy.org/CBM62.html

Ligand specificities

The only known crystallographic structure of a carbohydrate-binding module of family 62 is CtCBM62. Moreover, its structure has been solved in complex with a xyloglucan oligosaccharide, a 61-α-D-galactosyl mannotriose (GM3) or arabinose [1]. These crystal structures of CtCBM62 in complex with its ligands revealed that the interactions between the protein and α-L-arabinopyranose and α-D-galactopyranose are highly conserved. The data showed that an axial O4 is a key determinant for the specificity of CtCBM62, explaining why the ligand binding pocket targets galactose and arabinopyranose, as opposed to mannose, glucose and xylose.

Isothermal titration calorimetry revealed affinity for a wide range of galactose and/or arabinose containing polysaccharides such as galactomannan, tamarind xyloglucan, arabinogalactan and arabinan. The ligand-binding site is located in the the loops that connect the β-sheets. CtCBM62 recognises the non-reducing terminal sugars (arabinopyranose or galactose) of oligosaccharides and polysaccharides.

Structural Features

The structure of CtCBM62 comprises residues 739-878 of full length CtXyl5A [2]. It presents a classic β-jelly-roll fold, consisting of five antiparallel β-strands on one face (β1, 2, 4, 5 and 7) and three antiparallel β-strands on the other face (β3, 6 and 8). Two α-helixes and five loops on top of the β-jelly-roll complete the structure. A single structural calcium ion is found between the beginning of strand β-8 and the end of helix α-1. It displays typical hepta-coordination and is coordinated to the main-chain O of residues Lys 25, Asp 30 and Ala 130, the Oε2 of Asp 28 and Glu 131, and a bidentate interaction with both the main-chain carbonyl and Oε2 of Thr 33.

The ligand binding site is formed by the loops on top of the β-jelly-roll, comprising a pocket ≈ 7.5 Å wide and ≈ 5 Å deep. CtCBM62 is thus a type C CBM. The galactopyranose moiety of both xyloglucan oligosaccharides and GM3 is bound to CtCBM62 through hydrogen bonds with the side-chains of Asp 36, Arg 65, Tyr 68 and Arg 71 in the shallow binding pocket, while the indole side-chain of Trp 16 makes a hydrophobic interaction with the sugar ring. The OH of Tyr 68 hydrogen bonds to the O2 of Gal, while an NH2 of Arg 65 also interacts with the C2 hydroxyl of the hexose sugar. O3 of the sugar ring makes a polar contact with NH2 of Arg 65 and the backbone O of Asp 36. The C4 hydroxyl is tetra coordinated by a NH2 of Arg 65, both side-chain oxygens of Asp 36 and an NH2 of Arg 71, while the second amine group of Arg 71 hydrogen bonds to the oxygen ring of Gal. The xylose moiety of xyloglucan oligosaccharide does not interact with CtCBM62, but the O of the β-1,2 linkage binds to the OH of Tyr 68 and an NH2 of Arg 71. The arabinopyranose is bound to CtCBM62 in a similar way to galactose, except that the hydroxyl of C2 is hydrogen bonded only to the OH of Tyr 68.

Functionalities

CtCBM62 targets polysaccharides containing terminal D-galactose or L-arabinopyranose residues, whereas the appended catalytic domain CtXyl5A from family GH5 is an arabinoxylan-specific xylanase [2]. It is possible that the primary substrate for CtXyl5A is an arabinoxylan that also contains D-galactose side chains recognized by CtCBM62 or that arabinoxylans are in close association with polysaccharides containing terminal D-galactose or L-arabinopyranose residues.

It has been demonstrated that in the presence of calcium, CtCBM62 binds ca. 200- and 100-fold more tightly to the galactosyl side-chains of galactomannan and xyloglucan, respectively, compared to galactose. Such increased binding to multivalent ligands is a classic example of avidity effects [3, 4].

Family Firsts

First Identified

CtCBM62 from the Clostridium thermocellum multi-modular xylanase CtXyl5A.

First Structural Characterization

The first available crystal structure and the first complex structure of a CBM62 is from CtCBM62.

References

  1. Montanier CY, Correia MA, Flint JE, Zhu Y, Baslé A, McKee LS, Prates JA, Polizzi SJ, Coutinho PM, Lewis RJ, Henrissat B, Fontes CM, and Gilbert HJ. (2011). A novel, noncatalytic carbohydrate-binding module displays specificity for galactose-containing polysaccharides through calcium-mediated oligomerization. J Biol Chem. 2011;286(25):22499-509. DOI:10.1074/jbc.M110.217372 | PubMed ID:21454512 [Montanier2011]
  2. Correia MA, Mazumder K, Brás JL, Firbank SJ, Zhu Y, Lewis RJ, York WS, Fontes CM, and Gilbert HJ. (2011). Structure and function of an arabinoxylan-specific xylanase. J Biol Chem. 2011;286(25):22510-20. DOI:10.1074/jbc.M110.217315 | PubMed ID:21378160 [Correia2011]
  3. Boraston AB, McLean BW, Chen G, Li A, Warren RA, and Kilburn DG. (2002). Co-operative binding of triplicate carbohydrate-binding modules from a thermophilic xylanase. Mol Microbiol. 2002;43(1):187-94. DOI:10.1046/j.1365-2958.2002.02730.x | PubMed ID:11849546 [Boraston2002]
  4. Vijayan M and Chandra N. (1999). Lectins. Curr Opin Struct Biol. 1999;9(6):707-14. DOI:10.1016/s0959-440x(99)00034-2 | PubMed ID:10607664 [Vijayan1999]

All Medline abstracts: PubMed