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Difference between revisions of "Carbohydrate Binding Module Family 28"
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− | * [[Author]]: | + | * [[Author]]: [[User:Shinya Fushinobu|Shinya Fushinobu]] |
− | * [[Responsible Curator]]: | + | * [[Responsible Curator]]: [[User:Shinya Fushinobu|Shinya Fushinobu]] |
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== Ligand specificities == | == Ligand specificities == | ||
− | + | This module was first classified in 2002 by a characterization study of the C-terminal module in [[GH5]] Cel5A from ''Bacillus'' sp. 1139 (''Bsp''CBM28) <cite>Boraston2002</cite>. All known CBM28s are so far derived from bacterial origins, mostly attached to cellulosomal endoglucanases in tandem with [[CBM17]]. They bind non-crystalline (or amorphous) part of cellulose, cellooligosaccharides, or β-1,3-1,4-glucans <cite>Boraston2002 Boraston2003</cite>. | |
− | '' | + | == Structural Features == |
+ | [[Image:CBM28-17-4.png|'''Figure 1:''' CBM28 ([{{PDBlink}}3aci 3aci]) <cite>Tsukimoto2010</cite> in comparison with CBM17 ([{{PDBlink}}1j84 1j84]) <cite>Notenboom2011</cite> and CBM4 ([{{PDBlink}}1gu3 1gu3]) <cite>Boraston2002-2</cite>. Sugars of cellooligosaccharides (cellopentaose or cellotetraose) are designated as A-E from the non-reducing end to the reducing end. Ca<sup>2+</sup> ions in CBM28 and CBM17 are shown as green spheres in the ribbon representations (upper). Important residues in the cleft are colored yellow (aromatic), red (acidic), blue (basic), and green (neutral) on the molecular surfaces (lower). |frame|right]] | ||
+ | |||
+ | CBM28s have a β-sandwich fold (approximately 200 amino acids) that is similar to [[CBM17]] and [[CBM4]] ('''Figure 1'''). The module has a straight cleft that binds a cellulose glycan chain at the concave face of the β-sandwich fold. A Ca<sup>2+</sup> ion is bound on the back side of molecule. The Ca<sup>2+</sup> ion is not involved in ligand binding but appears to play a structural stabilization role. These modules are typical endo-type [[Carbohydrate-binding_modules#Types|Type B CBMs]] that accommodate a single glycan chain in an open cleft. '''Figure 1''' shows the cellopentaose complex structure ([{{PDBlink}}3aci 3aci]) of CBM28 in [[GH5]] Cel5A from [http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=1499 ''Clostridium josui''] (''Cj''CBM28). The long binding cleft runs at the center of the molecule. Therefore, the binding pocket location of CBM28 is on the concave face (side) of the β-sandwich fold, not within the variable loop region ([[Carbohydrate-binding_modules#Fold|CBM Fold]]). The shallow cleft of CBM28 binds one side of the cellooligosaccharides (face-on) in contrast with the case of [[CBM4]] (side-on). There are at at least five subsites (A-E from the non-reducing end to the reducing end) in ''Cj''CBM28. Interestingly, the direction of the cellooligosaccharides bound to CBM28 is opposite to those in [[CBM17]] and [[CBM4]]. Subsites B, C, and E form stacking interactions with aromatic residues (W78, W129, and F128 in ''Cj''CBM28). The flanking hydroxyl groups are extensively recognized by direct or water-mediated hydrogen bonds. Therefore, CBM28 has a relatively wide cleft. | ||
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== Functionalities == | == Functionalities == | ||
− | + | CBM28s are thought to target catalytic modules (endoglucanases) to non-crystalline region of cellulose. Deletion mutants of CBM28 in Cel5A from ''Bacillus'' sp. 1139 showed significantly decreased amounts of the soluble products from amorphous cellulose <cite>Boraston2003</cite>. They are exclusively associated with [[GH5]] endo-β-1,4-glucanases and a survey using the [http://www.ahv.dk/index.php/bioinformatic/cazy-tools/gh-cbm GH-CBM tool] shows that CBM28s are not associated with other GH family domains. As a typical endo-type (Type B) CBM, CBM28s show the <i>K</i><sub>a</sub> values of 0.7-5.2 ×10<sup>4</sup> M<sup>-1</sup> for the binding of cellooligosaccharides (cellotetraose to cellohexaose), and it is enthalpically driven <cite>Boraston2002 Araki2009</cite>. ''Bsp''CBM28 binds amorphous (regenerated) cellulose with high-affinity (<i>K</i><sub>a</sub> = 9.9 ×10<sup>5</sup> M<sup>-1</sup>) and low-affinity (<i>K</i><sub>a</sub> = 2.1 ×10<sup>4</sup> M<sup>-1</sup>) cites <cite>Boraston2003</cite>. A novel application of CBM28 molecules was recently published where ''Bsp''CBM28 was used as a marker to identify amorphous regions in cellulose in photoactivated localization microscopy (PALM) studies <cite>Fox2013</cite>. | |
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== Family Firsts == | == Family Firsts == | ||
;First Identified | ;First Identified | ||
− | + | The first identified member is the C-terminal module in Cel5A from ''Bacillus'' sp. 1139 (''Bsp''CBM28) <cite>Boraston2002</cite> | |
+ | |||
;First Structural Characterization | ;First Structural Characterization | ||
− | : | + | Partial assignment of the NMR data of a CBM28 in Cel5I from [http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=1521 ''Clostridium cellulolyticum''] was reported in 2002 <cite>Mosbah2002</cite> but its three-dimensional structure is not reported yet. The first crystal structure was reported in 2004 for ''Bsp''CBM28 in apo form ([{{PDBlink}}1uww 1uww]) <cite>Jamal2004</cite>. The first ligand complex structures were reported in 2010 for CBM28 in Cel5A from [http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=1499 ''C. josui''] (''Cj''CBM28) ([{{PDBlink}}3acf 3acf] [{{PDBlink}}3acg 3acg] [{{PDBlink}}3ach 3ach] [{{PDBlink}}3aci 3aci]) <cite>Tsukimoto2010</cite>. |
== References == | == References == | ||
<biblio> | <biblio> | ||
− | # | + | #Boraston2002 pmid=11743880 |
− | # | + | #Boraston2003 pmid=12427734 |
− | # | + | #Tsukimoto2010 pmid=20159017 |
− | # | + | #Notenboom2011 pmid=11733998 |
− | # | + | #Boraston2002-2 pmid=12079353 |
− | # | + | #Araki2009 pmid=19420681 |
+ | |||
+ | #Fox2013 pmid=23563526 | ||
+ | #Mosbah2002 pmid=12153043 | ||
+ | #Jamal2004 pmid=15136030 | ||
</biblio> | </biblio> | ||
[[Category:Carbohydrate Binding Module Families|CBM028]] | [[Category:Carbohydrate Binding Module Families|CBM028]] |
Latest revision as of 13:15, 18 December 2021
This page has been approved by the Responsible Curator as essentially complete. CAZypedia is a living document, so further improvement of this page is still possible. If you would like to suggest an addition or correction, please contact the page's Responsible Curator directly by e-mail.
CAZy DB link | |
https://www.cazy.org/CBM28.html |
Ligand specificities
This module was first classified in 2002 by a characterization study of the C-terminal module in GH5 Cel5A from Bacillus sp. 1139 (BspCBM28) [1]. All known CBM28s are so far derived from bacterial origins, mostly attached to cellulosomal endoglucanases in tandem with CBM17. They bind non-crystalline (or amorphous) part of cellulose, cellooligosaccharides, or β-1,3-1,4-glucans [1, 2].
Structural Features
CBM28s have a β-sandwich fold (approximately 200 amino acids) that is similar to CBM17 and CBM4 (Figure 1). The module has a straight cleft that binds a cellulose glycan chain at the concave face of the β-sandwich fold. A Ca2+ ion is bound on the back side of molecule. The Ca2+ ion is not involved in ligand binding but appears to play a structural stabilization role. These modules are typical endo-type Type B CBMs that accommodate a single glycan chain in an open cleft. Figure 1 shows the cellopentaose complex structure (3aci) of CBM28 in GH5 Cel5A from Clostridium josui (CjCBM28). The long binding cleft runs at the center of the molecule. Therefore, the binding pocket location of CBM28 is on the concave face (side) of the β-sandwich fold, not within the variable loop region (CBM Fold). The shallow cleft of CBM28 binds one side of the cellooligosaccharides (face-on) in contrast with the case of CBM4 (side-on). There are at at least five subsites (A-E from the non-reducing end to the reducing end) in CjCBM28. Interestingly, the direction of the cellooligosaccharides bound to CBM28 is opposite to those in CBM17 and CBM4. Subsites B, C, and E form stacking interactions with aromatic residues (W78, W129, and F128 in CjCBM28). The flanking hydroxyl groups are extensively recognized by direct or water-mediated hydrogen bonds. Therefore, CBM28 has a relatively wide cleft.
Functionalities
CBM28s are thought to target catalytic modules (endoglucanases) to non-crystalline region of cellulose. Deletion mutants of CBM28 in Cel5A from Bacillus sp. 1139 showed significantly decreased amounts of the soluble products from amorphous cellulose [2]. They are exclusively associated with GH5 endo-β-1,4-glucanases and a survey using the GH-CBM tool shows that CBM28s are not associated with other GH family domains. As a typical endo-type (Type B) CBM, CBM28s show the Ka values of 0.7-5.2 ×104 M-1 for the binding of cellooligosaccharides (cellotetraose to cellohexaose), and it is enthalpically driven [1, 6]. BspCBM28 binds amorphous (regenerated) cellulose with high-affinity (Ka = 9.9 ×105 M-1) and low-affinity (Ka = 2.1 ×104 M-1) cites [2]. A novel application of CBM28 molecules was recently published where BspCBM28 was used as a marker to identify amorphous regions in cellulose in photoactivated localization microscopy (PALM) studies [7].
Family Firsts
- First Identified
The first identified member is the C-terminal module in Cel5A from Bacillus sp. 1139 (BspCBM28) [1]
- First Structural Characterization
Partial assignment of the NMR data of a CBM28 in Cel5I from Clostridium cellulolyticum was reported in 2002 [8] but its three-dimensional structure is not reported yet. The first crystal structure was reported in 2004 for BspCBM28 in apo form (1uww) [9]. The first ligand complex structures were reported in 2010 for CBM28 in Cel5A from C. josui (CjCBM28) (3acf 3acg 3ach 3aci) [3].
References
- Boraston AB, Ghaffari M, Warren RA, and Kilburn DG. (2002). Identification and glucan-binding properties of a new carbohydrate-binding module family. Biochem J. 2002;361(Pt 1):35-40. DOI:10.1042/0264-6021:3610035 |
- Boraston AB, Kwan E, Chiu P, Warren RA, and Kilburn DG. (2003). Recognition and hydrolysis of noncrystalline cellulose. J Biol Chem. 2003;278(8):6120-7. DOI:10.1074/jbc.M209554200 |
- Tsukimoto K, Takada R, Araki Y, Suzuki K, Karita S, Wakagi T, Shoun H, Watanabe T, and Fushinobu S. (2010). Recognition of cellooligosaccharides by a family 28 carbohydrate-binding module. FEBS Lett. 2010;584(6):1205-11. DOI:10.1016/j.febslet.2010.02.027 |
- Notenboom V, Boraston AB, Chiu P, Freelove AC, Kilburn DG, and Rose DR. (2001). Recognition of cello-oligosaccharides by a family 17 carbohydrate-binding module: an X-ray crystallographic, thermodynamic and mutagenic study. J Mol Biol. 2001;314(4):797-806. DOI:10.1006/jmbi.2001.5153 |
- Boraston AB, Nurizzo D, Notenboom V, Ducros V, Rose DR, Kilburn DG, and Davies GJ. (2002). Differential oligosaccharide recognition by evolutionarily-related beta-1,4 and beta-1,3 glucan-binding modules. J Mol Biol. 2002;319(5):1143-56. DOI:10.1016/S0022-2836(02)00374-1 |
- Araki Y, Karita S, Tanaka A, Kondo M, and Goto M. (2009). Characterization of family 17 and family 28 carbohydrate-binding modules from Clostridium josui Cel5A. Biosci Biotechnol Biochem. 2009;73(5):1028-32. DOI:10.1271/bbb.80802 |
- Fox JM, Jess P, Jambusaria RB, Moo GM, Liphardt J, Clark DS, and Blanch HW. (2013). A single-molecule analysis reveals morphological targets for cellulase synergy. Nat Chem Biol. 2013;9(6):356-61. DOI:10.1038/nchembio.1227 |
- Mosbah A, Tardif C, Bornet O, Valette O, Henrissat B, and Darbon H. (2002). Assignment of the 1H, 13C, and 15N resonances of the 22,5 kDa CBM28 module of the cellulase Cel5I of Clostridium cellulolyticum. J Biomol NMR. 2002;23(2):157-8. DOI:10.1023/a:1016354623398 |
- Jamal S, Nurizzo D, Boraston AB, and Davies GJ. (2004). X-ray crystal structure of a non-crystalline cellulose-specific carbohydrate-binding module: CBM28. J Mol Biol. 2004;339(2):253-8. DOI:10.1016/j.jmb.2004.03.069 |