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Difference between revisions of "Carbohydrate Binding Module Family 47"
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== Ligand specificities == | == Ligand specificities == | ||
| + | The C-terminal triplet fucose-binding module (SpX-1.2.3) of protein toxin SpGH98, originating from the fucose utilization operon in ''Streptococcus pneumoniae'', has been firstly designated as CBM47 <cite>Boraston2006</cite>. ''Anguilla anguilla'' agglutinin (AAA), derived from the European eel, which was characterized earlier and initially classified as an F-type lectin <cite>Bianchet2002</cite>, was also included in the CBM47 family. Several other members of CBM47 family, such as MsaFBP32 <cite>Bianchet2010</cite>, LLY<Sup>lec</Sup> <cite>Feil2012</cite> and its mutant LLY<Sup>lec</Sup>Y62H <cite>Lawrence2012</cite>, have been confirmed to possess the F-type lectin fold. The aforementioned proteins are all capable of binding to polysaccharides containing fucose, often trisaccharides or smaller, such as AAA, and a portion of CBM47 members has been demonstrated to bind to polysaccharides with galactose <cite>Bianchet2002</cite>. Both of these sugars are ubiquitous in glycoproteins and glycolipids on the cell surface, playing crucial roles in cellular bioactivity and functions. Furthermore, the CBM47 family exhibits specific binding to Lewis blood group oligosaccharides, which are characterized by fucosylation modifications. For instance, LLY<Sup>lec</Sup> binds to both Lewis y (Le<Sup>y</Sup>) antigen (type 1 antigen) and Lewis b (Le<Sup>b</Sup>) antigen (type 2 antigen) <cite>Feil2012</cite>, whereas AAA displays a preference for binding to the Le<Sup>y</Sup> antigen <cite>Bianchet2002</cite>. Consequently, the CBM47 family holds potential applications in immune recognition and disease diagnosis. Besides, a novel CBM47 domain was discovered from the marine bacterium ''Wenyingzhuangia fucanilytica'', which is appended to the GH168 family sequence. The CBM exhibited a specific binding capacity to sulfated fucans with the backbone composed of 1,3-α-L-fucopyranose residues <cite>Mei2022</cite>. | ||
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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. | 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. | ||
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== References == | == References == | ||
<biblio> | <biblio> | ||
| − | # | + | #Boraston2006 pmid=16987809 |
| − | # | + | #Bianchet2002 pmid=12091873 |
| + | #Bianchet2010 pmid=20561530 | ||
| + | #Feil2012 pmid=22325774 | ||
| + | #Lawrence2012 pmid=23181061 | ||
| + | #Mei2022 pmid=34893209 | ||
</biblio> | </biblio> | ||
Revision as of 23:47, 31 October 2024
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| CAZy DB link | |
| https://www.cazy.org/CBM47.html |
Ligand specificities
The C-terminal triplet fucose-binding module (SpX-1.2.3) of protein toxin SpGH98, originating from the fucose utilization operon in Streptococcus pneumoniae, has been firstly designated as CBM47 [1]. Anguilla anguilla agglutinin (AAA), derived from the European eel, which was characterized earlier and initially classified as an F-type lectin [2], was also included in the CBM47 family. Several other members of CBM47 family, such as MsaFBP32 [3], LLYlec [4] and its mutant LLYlecY62H [5], have been confirmed to possess the F-type lectin fold. The aforementioned proteins are all capable of binding to polysaccharides containing fucose, often trisaccharides or smaller, such as AAA, and a portion of CBM47 members has been demonstrated to bind to polysaccharides with galactose [2]. Both of these sugars are ubiquitous in glycoproteins and glycolipids on the cell surface, playing crucial roles in cellular bioactivity and functions. Furthermore, the CBM47 family exhibits specific binding to Lewis blood group oligosaccharides, which are characterized by fucosylation modifications. For instance, LLYlec binds to both Lewis y (Ley) antigen (type 1 antigen) and Lewis b (Leb) antigen (type 2 antigen) [4], whereas AAA displays a preference for binding to the Ley antigen [2]. Consequently, the CBM47 family holds potential applications in immune recognition and disease diagnosis. Besides, a novel CBM47 domain was discovered from the marine bacterium Wenyingzhuangia fucanilytica, which is appended to the GH168 family sequence. The CBM exhibited a specific binding capacity to sulfated fucans with the backbone composed of 1,3-α-L-fucopyranose residues [6].
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: [7, 8]. CBMs, in particular, have been extensively reviewed [9, 10, 11, 12, 13].
Structural Features
Content in this section should include, in paragraph form, a description of:
- Fold: Structural fold (beta trefoil, beta sandwich, etc.)
- 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
Content in this section should include, in paragraph form, a description of:
- 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.)
- 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
- First Identified
- Insert archetype here, possibly including very brief synopsis.
- First Structural Characterization
- Insert archetype here, possibly including very brief synopsis.
References
- Boraston AB, Wang D, and Burke RD. (2006). Blood group antigen recognition by a Streptococcus pneumoniae virulence factor. J Biol Chem. 2006;281(46):35263-71. DOI:10.1074/jbc.M607620200 |
- Bianchet MA, Odom EW, Vasta GR, and Amzel LM. (2002). A novel fucose recognition fold involved in innate immunity. Nat Struct Biol. 2002;9(8):628-34. DOI:10.1038/nsb817 |
- Bianchet MA, Odom EW, Vasta GR, and Amzel LM. (2010). Structure and specificity of a binary tandem domain F-lectin from striped bass (Morone saxatilis). J Mol Biol. 2010;401(2):239-52. DOI:10.1016/j.jmb.2010.06.018 |
- Feil SC, Lawrence S, Mulhern TD, Holien JK, Hotze EM, Farrand S, Tweten RK, and Parker MW. (2012). Structure of the lectin regulatory domain of the cholesterol-dependent cytolysin lectinolysin reveals the basis for its lewis antigen specificity. Structure. 2012;20(2):248-58. DOI:10.1016/j.str.2011.11.017 |
- Lawrence SL, Feil SC, Holien JK, Kuiper MJ, Doughty L, Dolezal O, Mulhern TD, Tweten RK, and Parker MW. (2012). Manipulating the Lewis antigen specificity of the cholesterol-dependent cytolysin lectinolysin. Front Immunol. 2012;3:330. DOI:10.3389/fimmu.2012.00330 |
- Mei X, Chang Y, Shen J, Zhang Y, Chen G, Liu Y, and Xue C. (2022). Characterization of a sulfated fucan-specific carbohydrate-binding module: A promising tool for investigating sulfated fucans. Carbohydr Polym. 2022;277:118748. DOI:10.1016/j.carbpol.2021.118748 |