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Difference between revisions of "Carbohydrate Binding Module Family 79"

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== Functionalities ==  
 
== Functionalities ==  
CBM79 fulfills an enzyme-targeting role that is specific to ''Ruminococcus'' <cite>Bensoussan2017</cite>. The specificity of CBM79-1<sub>RfGH9</sub> for β-glucans is consistent with endo-β1,4-glucanase activity of catalytic module [[GH9]] <cite>VendittoI2016</cite>. Mutagenesis experiments confirmed the importance of the aromatic residues in ligand recognition <cite>VendittoI2016</cite>. Alanine substitution of Trp606 in CBM79-1<sub>RfGH9</sub>, which is conserved in the CBM family, resulted in complete loss of binding to all ligands <cite>VendittoI2016</cite>. The mutants W564A and W607A retained affinity for barley β-glucan but did not bind xyloglucan <cite>VendittoI2016</cite>. The planar topology of the binding cleft of CBM79-1<sub>RfGH9</sub> indicated that this protein may interact with components of insoluble cellulose <cite>VendittoI2016</cite>. ITC and pull down assays showed that CBM79-1<sub>RfGH9</sub> binds RC <cite>VendittoI2016</cite>. Alanine substitution of W564 and W606 resulted in loss of binding to RC <cite>VendittoI2016</cite>. The importance of conformation of conserved aromatic residues on CBM specificity is evident in family 2 CBMs that bind to cellulose or xylan <cite>SimpsonPJ2000</cite>.  
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CBM79 fulfills an enzyme-targeting role that is specific to ''Ruminococcus'' <cite>Bensoussan2017</cite>. The specificity of CBM79-1<sub>RfGH9</sub> for β-glucans is consistent with endo-β1,4-glucanase activity of the [[GH9]] catalytic module  <cite>VendittoI2016</cite>. Mutagenesis experiments confirmed the importance of the aromatic residues in ligand recognition <cite>VendittoI2016</cite>. Alanine substitution of Trp606 in CBM79-1<sub>RfGH9</sub>, which is conserved in the CBM family, resulted in complete loss of binding to all ligands <cite>VendittoI2016</cite>. The mutants W564A and W607A retained affinity for barley β-glucan but did not bind xyloglucan <cite>VendittoI2016</cite>. The planar topology of the binding cleft of CBM79-1<sub>RfGH9</sub> indicated that this protein may interact with components of insoluble cellulose <cite>VendittoI2016</cite>. ITC and pull down assays showed that CBM79-1<sub>RfGH9</sub> binds RC <cite>VendittoI2016</cite>. Alanine substitution of W564 and W606 resulted in loss of binding to RC <cite>VendittoI2016</cite>. The importance of conformation of conserved aromatic residues on CBM specificity is evident in family 2 CBMs that bind to cellulose or xylan <cite>SimpsonPJ2000</cite>.  
  
 
== Family Firsts ==
 
== Family Firsts ==

Revision as of 02:04, 27 August 2018

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CAZy DB link
https://www.cazy.org/CBM79.html

Ligand specificities

CBM79 is a family identified in the Ruminococcus flavefaciens cellulosome, an anaerobic, cellulolytic bacterium that plays an important role in the ruminal digestion of plant cell walls [1]. Two CBM79s (CBM79-1RfGH9 and CBM79-2RfGH9) were identified in an enzyme that contains a catalytic module derived from GH9 with endo-β-1,4-glucanase activity [2]. Both CBM79s bind to a range of β-1,4- and mixed linked β-1,3-1,4-glucans [2]. The ligand binding of CBM79-1RfGH9 was quantified by Isothermal Titration Calorimetry (ITC) and semi-quantified using Microarrays [2]. CBM79-1RfGH9 binds barley β-glucan and hydroxyethylcellulose (HEC) with similar affinities [2]. The small increase in KA from cellotetraose to cellohexaose suggests that ligand recognition is dominated by four sugar binding sites [2]. The binding to xyloglucan is weaker than the other β-glucans, indicating that the protein cannot recognize the xylose side chains [2]. CBM79-1RfGH9 binds regenerated (noncrystalline) insoluble cellulose (RC) with a KA of 4.8 x 104 M-1 [2].

Structural Features

Figure 1. Crystal structure of CBM79-1RfGH9. (PDB ID 4V1L)(PDB ID 4V1K). The aromatic residues that contribute to ligand recognition are shown.

The structure of CBM79-1RfGH9 was solved using single-wavelength anomalous diffraction (SAD) methods and selenomethionyl protein to a resolution of 1.8 Å [2]. CBM79-1RfGH9 displays a beta-sandwich fold in which the 12 antiparallel β-strands are organized in two β-sheets 1 and 2 (Figure 1) [2]. β-sheet 2 forms a cleft in which aromatic residues are a dominant feature [2]. Tyr563, Trp564, Tyr597, Trp606 and Trp607 in CBM79-1RfGH9 form a twisted hydrophobic platform [2]. The concave surface of CBM79-1RfGH9 forms an unusual solvent exposed cleft or planar surface [2]. Two tryptophan residues (Trp564 and Trp606) play a key role in ligand recognition adopting a planar orientation in CBM79-1RfGH9 [2].

Functionalities

CBM79 fulfills an enzyme-targeting role that is specific to Ruminococcus [3]. The specificity of CBM79-1RfGH9 for β-glucans is consistent with endo-β1,4-glucanase activity of the GH9 catalytic module [2]. Mutagenesis experiments confirmed the importance of the aromatic residues in ligand recognition [2]. Alanine substitution of Trp606 in CBM79-1RfGH9, which is conserved in the CBM family, resulted in complete loss of binding to all ligands [2]. The mutants W564A and W607A retained affinity for barley β-glucan but did not bind xyloglucan [2]. The planar topology of the binding cleft of CBM79-1RfGH9 indicated that this protein may interact with components of insoluble cellulose [2]. ITC and pull down assays showed that CBM79-1RfGH9 binds RC [2]. Alanine substitution of W564 and W606 resulted in loss of binding to RC [2]. The importance of conformation of conserved aromatic residues on CBM specificity is evident in family 2 CBMs that bind to cellulose or xylan [4].

Family Firsts

First Identified
CBM79 from the Ruminococcus flavefaciens CBM79_1RfGH9 and CBM79_2RfGH9 [2].
First Structural Characterization
The first available crystal structure and the first complex structure of a CBM79 is from CBM79_1RfGH9 [2].

References

  1. Rincon MT, Dassa B, Flint HJ, Travis AJ, Jindou S, Borovok I, Lamed R, Bayer EA, Henrissat B, Coutinho PM, Antonopoulos DA, Berg Miller ME, and White BA. (2010). Abundance and diversity of dockerin-containing proteins in the fiber-degrading rumen bacterium, Ruminococcus flavefaciens FD-1. PLoS One. 2010;5(8):e12476. DOI:10.1371/journal.pone.0012476 | PubMed ID:20814577 [RinconMT2010]
  2. Venditto I, Luis AS, Rydahl M, Schückel J, Fernandes VO, Vidal-Melgosa S, Bule P, Goyal A, Pires VM, Dourado CG, Ferreira LM, Coutinho PM, Henrissat B, Knox JP, Baslé A, Najmudin S, Gilbert HJ, Willats WG, and Fontes CM. (2016). Complexity of the Ruminococcus flavefaciens cellulosome reflects an expansion in glycan recognition. Proc Natl Acad Sci U S A. 2016;113(26):7136-41. DOI:10.1073/pnas.1601558113 | PubMed ID:27298375 [VendittoI2016]
  3. Bensoussan L, Moraïs S, Dassa B, Friedman N, Henrissat B, Lombard V, Bayer EA, and Mizrahi I. (2017). Broad phylogeny and functionality of cellulosomal components in the bovine rumen microbiome. Environ Microbiol. 2017;19(1):185-197. DOI:10.1111/1462-2920.13561 | PubMed ID:27712009 [Bensoussan2017]
  4. Simpson PJ, Xie H, Bolam DN, Gilbert HJ, and Williamson MP. (2000). The structural basis for the ligand specificity of family 2 carbohydrate-binding modules. J Biol Chem. 2000;275(52):41137-42. DOI:10.1074/jbc.M006948200 | PubMed ID:10973978 [SimpsonPJ2000]

All Medline abstracts: PubMed