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Difference between revisions of "Carbohydrate Binding Module Family 67"
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| − | * [[Author]]: | + | * [[Author]]: [[User:Satoshi Kaneko|Satoshi Kaneko]] |
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== Ligand specificities == | == Ligand specificities == | ||
| − | The sugar binding structure of a [[GH78]] α-ʟ-rhamnosidase from ''Streptomyces avermitilis'' (SaRha78A) revealed a ʟ-rhamnose binding module CBM67 (SaCBM67) within the six-domain arrangement <cite>Fujimoto2013</cite>. SaCBM67 bound ʟ-rhamnose and ʟ-mannose with a ''K<sub>a</sub>'' of 7.2 × 10<sup>3</sup> M<sup>−1</sup> and 3.6 × 10<sup>3</sup> M<sup>−1</sup>, and free energy of binding Δ''G'' of −5.3 kcal/mol and −4.8 kcal/mol, respectively, but it did not bind to ʟ-rhamnose in the presence of 5 mM EDTA <cite>Fujimoto2013</cite>. Similarly, the D179A and N180A mutants of SaCBM67, in which removed | + | The sugar binding structure of a [[GH78]] α-ʟ-rhamnosidase from ''Streptomyces avermitilis'' (SaRha78A) revealed a ʟ-rhamnose binding module CBM67 (SaCBM67) within the six-domain arrangement <cite>Fujimoto2013</cite>. SaCBM67 bound ʟ-rhamnose and ʟ-mannose with a ''K<sub>a</sub>'' of 7.2 × 10<sup>3</sup> M<sup>−1</sup> and 3.6 × 10<sup>3</sup> M<sup>−1</sup>, and free energy of binding Δ''G'' of −5.3 kcal/mol and −4.8 kcal/mol, respectively, but it did not bind to ʟ-rhamnose in the presence of 5 mM EDTA <cite>Fujimoto2013</cite>. Similarly, the D179A and N180A mutants of SaCBM67, in which removed hydrogen bonds with calcium abolish ligand binding, confirm the importance of calcium in the binding of SaCBM67 to its ligand <cite>Fujimoto2013</cite>. No binding to ʟ-galactose or ʟ-fucose was observed <cite>Fujimoto2013</cite>. |
== Structural Features == | == Structural Features == | ||
| − | SaCBM67 is a ʟ-rhamnose binding module. The exo binding manner with shallow binding site of SaCBM67 suggests it is a [[Carbohydrate-binding_modules#Types|type C]] CBM. SaRha78A (pdb: 3W5N) forms a multidomain structure comprised of six distinct domains, one α-domain (domain A: catalytic module designated SaRha78<sub>CM</sub>) and five β-domains (domains N, D, E, F | + | [[File:SaCBM67_3.png|thumb|300px|right|'''Figure 1.''' The structure of ʟ-rhamnose binding pocket of SaCBM67 (PDB ID [{{PDBlink}}3w5n 3W5N]).]] |
| − | + | SaCBM67 is a ʟ-rhamnose binding module. The exo-binding manner with the shallow binding site of SaCBM67 suggests it is a [[Carbohydrate-binding_modules#Types|type C]] CBM. SaRha78A (pdb: 3W5N) forms a multidomain structure comprised of six distinct domains, one α-domain (domain A: catalytic module designated SaRha78<sub>CM</sub>) and five β-domains (domains N, D, E, F, and C) <cite>Fujimoto2013</cite>. Domain D is designated as SaCBM67 (P133-P297). SaCBM67 displays weak structural homology with a [[CBM32]], [[CBM35]], [[CBM36]], and [[CBM60]], which recognize their different ligands through either an exo- ([[CBM32]] and [[CBM35]]) or endo-mode ([[CBM36]] and [[CBM60]]) of binding. These CBMs all comprise a β-jellyroll structures and contain a second calcium atom that is integral to ligand recognition (which is absent in CBM32), in addition to a structural calcium (which is absent in CBM67). A central feature of the ʟ-rhamnose binding site in SaCBM67 (Figure 1, see also Fig. 3C of <cite>Fujimoto2013</cite>) is a calcium ion that makes coordinate bonds with O3 and O4 of the sugar. The calcium interacts with SaCBM67 through D179, N180, N228, P233, and a water-mediated contact with S230. The bound ʟ-rhamnose also makes direct hydrogen bonds with W203, N180, and D179 through O2, O3, and O4 atoms, respectively. The C-6 methyl group points toward a small hydrophobic pocket comprising W203, P233, P291 and W292. No direct interaction with the C-6 methyl group explains why SaCBM67 is also capable of binding to ʟ-mannose. | |
== Functionalities == | == Functionalities == | ||
| − | + | SaCBM67 shows 2 times higher affinity for ʟ-rhamnose than ʟ-mannose<cite>Fujimoto2013</cite>. It binds primarily to ʟ-rhamnose in biological systems because ʟ-mannose seldom exists in natural polysaccharides. The D179A and N180A mutant enzymes lost their binding ability to ʟ-rhamnose which caused a substantial reduction (∼50-fold) in activity against ʟ-rhamnose-containing polysaccharides, these mutations did not influence activity against aryl-rhamnosides <cite>Fujimoto2013</cite>. | |
CBM67 members are distributed not only in many bacterial [[GH78]] α-ʟ-rhamnosidases, but also in some Basidiomycete lectins, family 1 pectate lyases, peptidases, and proteins of unknown functions. Protein alignment of candidate members of CBM67 identified five subfamilies within the constructed phylogenetic tree<cite>Fujimoto2013</cite>. Although the calcium binding site is conserved in CBM67 members, these CBM67 members might show different sugar specificities because the ʟ-rhamnose binding residues in SaCBM67 are not retained in all the subfamilies. For example, the lectin from ''Pleurotus cornucopiae'', containing two CBM67-like sequences in tandem with sequence identities with SaCBM67 of 25 and 35% for the N- and C-terminal modules, respectively, shows the highest affinity for ''N''-acetyl-ᴅ-galactosamine<cite>Fujimoto2013</cite>. | CBM67 members are distributed not only in many bacterial [[GH78]] α-ʟ-rhamnosidases, but also in some Basidiomycete lectins, family 1 pectate lyases, peptidases, and proteins of unknown functions. Protein alignment of candidate members of CBM67 identified five subfamilies within the constructed phylogenetic tree<cite>Fujimoto2013</cite>. Although the calcium binding site is conserved in CBM67 members, these CBM67 members might show different sugar specificities because the ʟ-rhamnose binding residues in SaCBM67 are not retained in all the subfamilies. For example, the lectin from ''Pleurotus cornucopiae'', containing two CBM67-like sequences in tandem with sequence identities with SaCBM67 of 25 and 35% for the N- and C-terminal modules, respectively, shows the highest affinity for ''N''-acetyl-ᴅ-galactosamine<cite>Fujimoto2013</cite>. | ||
== Family Firsts == | == Family Firsts == | ||
| − | ;First Identified | + | ;First Identified: SaCBM67 from the ''S. avermitilis'' α-ʟ-rhamnosidase SaRha78A was the first member of the family to be identified and characterized <cite>Fujimoto2013</cite>. |
| − | :SaCBM67 from the ''S. avermitilis'' α-ʟ-rhamnosidase SaRha78A was the first member of the family to be identified and characterized <cite>Fujimoto2013</cite>. | + | ;First Structural Characterization: The first structure of CBM67 is a module involved in BsRhaB from ''Bacillus'' sp. GL1 <cite>Cui2007</cite>, but the function of the module has not been demonstrated. The first structure-based characterization of a characterized member of CBM67 was SaCBM67 <cite>Fujimoto2013</cite>. |
| − | ;First Structural Characterization | ||
| − | :The first structure of CBM67 is a module involved in BsRhaB from ''Bacillus'' sp. GL1 <cite>Cui2007</cite>, but the function of the module has not been demonstrated. The first structure-based characterization of a characterized member of CBM67 was SaCBM67 <cite>Fujimoto2013</cite>. | ||
== References == | == References == | ||
| Line 40: | Line 38: | ||
</biblio> | </biblio> | ||
| − | [[Category:Carbohydrate Binding Module Families|CBM067]] | + | [[Category:Carbohydrate Binding Module Families|CBM067]] |
Latest revision as of 14:17, 18 December 2021
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Ligand specificities
The sugar binding structure of a GH78 α-ʟ-rhamnosidase from Streptomyces avermitilis (SaRha78A) revealed a ʟ-rhamnose binding module CBM67 (SaCBM67) within the six-domain arrangement [1]. SaCBM67 bound ʟ-rhamnose and ʟ-mannose with a Ka of 7.2 × 103 M−1 and 3.6 × 103 M−1, and free energy of binding ΔG of −5.3 kcal/mol and −4.8 kcal/mol, respectively, but it did not bind to ʟ-rhamnose in the presence of 5 mM EDTA [1]. Similarly, the D179A and N180A mutants of SaCBM67, in which removed hydrogen bonds with calcium abolish ligand binding, confirm the importance of calcium in the binding of SaCBM67 to its ligand [1]. No binding to ʟ-galactose or ʟ-fucose was observed [1].
Structural Features
SaCBM67 is a ʟ-rhamnose binding module. The exo-binding manner with the shallow binding site of SaCBM67 suggests it is a type C CBM. SaRha78A (pdb: 3W5N) forms a multidomain structure comprised of six distinct domains, one α-domain (domain A: catalytic module designated SaRha78CM) and five β-domains (domains N, D, E, F, and C) [1]. Domain D is designated as SaCBM67 (P133-P297). SaCBM67 displays weak structural homology with a CBM32, CBM35, CBM36, and CBM60, which recognize their different ligands through either an exo- (CBM32 and CBM35) or endo-mode (CBM36 and CBM60) of binding. These CBMs all comprise a β-jellyroll structures and contain a second calcium atom that is integral to ligand recognition (which is absent in CBM32), in addition to a structural calcium (which is absent in CBM67). A central feature of the ʟ-rhamnose binding site in SaCBM67 (Figure 1, see also Fig. 3C of [1]) is a calcium ion that makes coordinate bonds with O3 and O4 of the sugar. The calcium interacts with SaCBM67 through D179, N180, N228, P233, and a water-mediated contact with S230. The bound ʟ-rhamnose also makes direct hydrogen bonds with W203, N180, and D179 through O2, O3, and O4 atoms, respectively. The C-6 methyl group points toward a small hydrophobic pocket comprising W203, P233, P291 and W292. No direct interaction with the C-6 methyl group explains why SaCBM67 is also capable of binding to ʟ-mannose.
Functionalities
SaCBM67 shows 2 times higher affinity for ʟ-rhamnose than ʟ-mannose[1]. It binds primarily to ʟ-rhamnose in biological systems because ʟ-mannose seldom exists in natural polysaccharides. The D179A and N180A mutant enzymes lost their binding ability to ʟ-rhamnose which caused a substantial reduction (∼50-fold) in activity against ʟ-rhamnose-containing polysaccharides, these mutations did not influence activity against aryl-rhamnosides [1].
CBM67 members are distributed not only in many bacterial GH78 α-ʟ-rhamnosidases, but also in some Basidiomycete lectins, family 1 pectate lyases, peptidases, and proteins of unknown functions. Protein alignment of candidate members of CBM67 identified five subfamilies within the constructed phylogenetic tree[1]. Although the calcium binding site is conserved in CBM67 members, these CBM67 members might show different sugar specificities because the ʟ-rhamnose binding residues in SaCBM67 are not retained in all the subfamilies. For example, the lectin from Pleurotus cornucopiae, containing two CBM67-like sequences in tandem with sequence identities with SaCBM67 of 25 and 35% for the N- and C-terminal modules, respectively, shows the highest affinity for N-acetyl-ᴅ-galactosamine[1].
Family Firsts
- First Identified
- SaCBM67 from the S. avermitilis α-ʟ-rhamnosidase SaRha78A was the first member of the family to be identified and characterized [1].
- First Structural Characterization
- The first structure of CBM67 is a module involved in BsRhaB from Bacillus sp. GL1 [2], but the function of the module has not been demonstrated. The first structure-based characterization of a characterized member of CBM67 was SaCBM67 [1].
References
- Fujimoto Z, Jackson A, Michikawa M, Maehara T, Momma M, Henrissat B, Gilbert HJ, and Kaneko S. (2013). The structure of a Streptomyces avermitilis α-L-rhamnosidase reveals a novel carbohydrate-binding module CBM67 within the six-domain arrangement. J Biol Chem. 2013;288(17):12376-85. DOI:10.1074/jbc.M113.460097 |
- Cui Z, Maruyama Y, Mikami B, Hashimoto W, and Murata K. (2007). Crystal structure of glycoside hydrolase family 78 alpha-L-Rhamnosidase from Bacillus sp. GL1. J Mol Biol. 2007;374(2):384-98. DOI:10.1016/j.jmb.2007.09.003 |