Designing Fusion Proteins with Carbohydrate-Binding Modules Having Affinity to Enzymatically Gellable Carboxymethylcellulose Derivative Hydrogel

2014 ◽  
Vol 47 (11) ◽  
pp. 835-840 ◽  
Author(s):  
Tomoaki Ashida ◽  
Yoshihiro Ojima ◽  
Shinji Sakai ◽  
Makiko Sakka ◽  
Kazuo Sakka ◽  
...  
Keyword(s):  
Fusion Proteins ◽  
Carbohydrate Binding ◽  
Carbohydrate Binding Modules

scholarly journals Functionalization of Cellulose-Based Hydrogels with Bi-Functional Fusion Proteins Containing Carbohydrate-Binding Modules

Materials ◽  
2021 ◽  
Vol 14 (12) ◽  
pp. 3175
Author(s):  
Mariana Barbosa ◽  
Hélvio Simões ◽  
Duarte Miguel F. Prazeres
Keyword(s):  
Fusion Proteins ◽  
Fluorescent Protein ◽  
Protein A ◽  
Chemical Properties ◽  
Main Idea ◽  
Bioactive Molecules ◽  
Scaffolding Protein ◽  
Carbohydrate Binding ◽  
Biological Interactions ◽  
Carbohydrate Binding Modules

Materials with novel and enhanced functionalities can be obtained by modifying cellulose with a range of biomolecules. This functionalization can deliver tailored cellulose-based materials with enhanced physical and chemical properties and control of biological interactions that match specific applications. One of the foundations for the success of such biomaterials is to efficiently control the capacity to combine relevant biomolecules into cellulose materials in such a way that the desired functionality is attained. In this context, our main goal was to develop bi-functional biomolecular constructs for the precise modification of cellulose hydrogels with bioactive molecules of interest. The main idea was to use biomolecular engineering techniques to generate and purify different recombinant fusions of carbohydrate binding modules (CBMs) with significant biological entities. Specifically, CBM-based fusions were designed to enable the bridging of proteins or oligonucleotides with cellulose hydrogels. The work focused on constructs that combine a family 3 CBM derived from the cellulosomal-scaffolding protein A from Clostridium thermocellum (CBM3) with the following: (i) an N-terminal green fluorescent protein (GFP) domain (GFP-CBM3); (ii) a double Z domain that recognizes IgG antibodies; and (iii) a C-terminal cysteine (CBM3C). The ability of the CBM fusions to bind and/or anchor their counterparts onto the surface of cellulose hydrogels was evaluated with pull-down assays. Capture of GFP-CBM3 by cellulose was first demonstrated qualitatively by fluorescence microscopy. The binding of the fusion proteins, the capture of antibodies (by ZZ-CBM3), and the grafting of an oligonucleotide (to CBM3C) were successfully demonstrated. The bioactive cellulose platform described here enables the precise anchoring of different biomolecules onto cellulose hydrogels and could contribute significatively to the development of advanced medical diagnostic sensors or specialized biomaterials, among others.

scholarly journals Characterization of Thermobifida fusca Cutinase-Carbohydrate-Binding Module Fusion Proteins and Their Potential Application in Bioscouring

2010 ◽  
Vol 76 (20) ◽  
pp. 6870-6876 ◽  
Author(s):  
Yao Zhang ◽  
Sheng Chen ◽  
Meng Xu ◽  
Artur Cavoco-Paulo ◽  
Jing Wu ◽  
...  
Keyword(s):  
Cotton Fiber ◽  
Potential Application ◽  
Fusion Proteins ◽  
Textile Industry ◽  
Enzyme Characterization ◽  
Binding Activity ◽  
Thermobifida Fusca ◽  
Carbohydrate Binding ◽  
Carbohydrate Binding Modules ◽  
Fusion Enzymes

ABSTRACT Cutinase from Thermobifida fusca is thermally stable and has potential application in the bioscouring of cotton in the textile industry. In the present study, the carbohydrate-binding modules (CBMs) from T. fusca cellulase Cel6A (CBMCel6A) and Cellulomonas fimi cellulase CenA (CBMCenA) were fused, separately, to the carboxyl terminus of T. fusca cutinase. Both fusion enzymes, cutinase-CBMCel6A and cutinase-CBMCenA, were expressed in Escherichia coli and purified to homogeneity. Enzyme characterization showed that both displayed similar catalytic properties and pH stabilities in response to T. fusca cutinase. In addition, both fusion proteins displayed an activity half-life of 53 h at their optimal temperature of 50�C. Compared to T. fusca cutinase, in the absence of pectinase, the binding activity on cotton fiber was enhanced by 2% for cutinase-CBMCel6A and by 28% for cutinase-CBMCenA, whereas in the presence of pectinase, the binding activity was enhanced by 40% for the former and 45% for the latter. Notably, a dramatic increase of up to 3-fold was observed in the amount of released fatty acids from cotton fiber by both cutinase-CBM fusion proteins when acting in concert with pectinase. This is the first report of improving the scouring efficiency of cutinase by fusing it with CBM. The improvement in activity and the strong synergistic effect between the fusion proteins and pectinase suggest that they may have better applications in textile bioscouring than the native cutinase.

scholarly journals Functional diversity of three tandem C-terminal carbohydrate-binding modules of a β-mannanase

2021 ◽  
pp. 100638
Author(s):  
Marie Sofie Møller ◽  
Souad El Bouaballati ◽  
Bernard Henrissat ◽  
Birte Svensson
Keyword(s):  
Functional Diversity ◽  
Carbohydrate Binding ◽  
Carbohydrate Binding Modules

scholarly journals Integrated Counts of Carbohydrate-Active Protein Domains as Metabolic Readouts to Distinguish Probiotic Biology and Human Fecal Metagenomes

2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Hong-Hsing Liu ◽  
Yu-Chen Lin ◽  
Chen-Shuan Chung ◽  
Kevin Liu ◽  
Ya-Hui Chang ◽  
...  
Keyword(s):  
Markov Models ◽  
Protein Domains ◽  
Degradation Pathway ◽  
The Other ◽  
Carbohydrate Binding ◽  
Gram Stain ◽  
Active Protein ◽  
Metabolic Potential ◽  
Independent Validation ◽  
Carbohydrate Binding Modules

AbstractBowel microbiota is a “metaorgan” of metabolisms on which quantitative readouts must be performed before interventions can be introduced and evaluated. The study of the effects of probiotic Clostridium butyricum MIYAIRI 588 (CBM588) on intestine transplantees indicated an increased percentage of the “other glycan degradation” pathway in 16S-rRNA-inferred metagenomes. To verify the prediction, a scoring system of carbohydrate metabolisms derived from shotgun metagenomes was developed using hidden Markov models. A significant correlation (R = 0.9, p < 0.015) between both modalities was demonstrated. An independent validation revealed a strong complementarity (R = −0.97, p < 0.002) between the scores and the abundance of “glycogen degradation” in bacteria communities. On applying the system to bacteria genomes, CBM588 had only 1 match and ranked higher than the other 8 bacteria evaluated. The gram-stain properties were significantly correlated to the scores (p < 5 × 10−4). The distributions of the scored protein domains indicated that CBM588 had a considerably higher (p < 10−5) proportion of carbohydrate-binding modules than other bacteria, which suggested the superior ability of CBM588 to access carbohydrates as a metabolic driver to the bowel microbiome. These results demonstrated the use of integrated counts of protein domains as a feasible readout for metabolic potential within bacteria genomes and human metagenomes.

scholarly journals Family 6 carbohydrate-binding modules display multiple β1,3-linked glucan-specific binding interfaces

2009 ◽  
Vol 300 (1) ◽  
pp. 48-57 ◽  
Author(s):  
Márcia A.S. Correia ◽  
Virgínia M.R. Pires ◽  
Harry J. Gilbert ◽  
David N. Bolam ◽  
Vânia O. Fernandes ◽  
...  
Keyword(s):  
Specific Binding ◽  
Carbohydrate Binding ◽  
Carbohydrate Binding Modules ◽  
Binding Interfaces

scholarly journals Versatile derivatives of carbohydrate-binding modules for imaging of complex carbohydrates approaching the molecular level of resolution

BioTechniques ◽  
2006 ◽  
Vol 41 (4) ◽  
pp. 435-443 ◽  
Author(s):  
Shi-You Ding ◽  
Qi Xu ◽  
Mursheda K. Ali ◽  
John O. Baker ◽  
Edward A. Bayer ◽  
...  
Keyword(s):  
Molecular Level ◽  
Carbohydrate Binding ◽  
Carbohydrate Binding Modules ◽  
Complex Carbohydrates ◽  
Derivatives Of

scholarly journals N-Glycosidase–carbohydrate-binding module fusion proteins as immobilized enzymes for protein deglycosylation

2005 ◽  
Vol 18 (10) ◽  
pp. 497-501 ◽  
Author(s):  
Emily M. Kwan ◽  
Alisdair B. Boraston ◽  
Bradley W. McLean ◽  
Douglas G. Kilburn ◽  
R. Antony J. Warren
Keyword(s):  
Fusion Proteins ◽  
Immobilized Enzymes ◽  
Carbohydrate Binding ◽  
Carbohydrate Binding Module

Novel clostridial cell-surface hemicellulose-binding CBM3 proteins

2021 ◽  
Vol 77 (4) ◽  
Author(s):  
Almog Hershko Rimon ◽  
Oded Livnah ◽  
Inna Rozman Grinberg ◽  
Lizett Ortiz de Ora ◽  
Oren Yaniv ◽  
...  
Keyword(s):  
Calcium Binding ◽  
Three Dimensional ◽  
Dimensional Structure ◽  
Carbohydrate Binding ◽  
Unexpected Finding ◽  
Calcium Binding Site ◽  
Three Dimensional Structure ◽  
Loop Region ◽  
Carbohydrate Binding Modules ◽  
Cellulose Binding

A novel member of the family 3 carbohydrate-binding modules (CBM3s) is encoded by a gene (Cthe_0271) in Clostridium thermocellum which is the most highly expressed gene in the bacterium during its growth on several types of biomass substrates. Surprisingly, CtCBM3-0271 binds to at least two different types of xylan, instead of the common binding of CBM3s to cellulosic substrates. CtCBM3-0271 was crystallized and its three-dimensional structure was solved and refined to a resolution of 1.8 Å. In order to learn more about the role of this type of CBM3, a comparative study with its orthologue from Clostridium clariflavum (encoded by the Clocl_1192 gene) was performed, and the three-dimensional structure of CcCBM3-1192 was determined to 1.6 Å resolution. Carbohydrate binding by CcCBM3-1192 was found to be similar to that by CtCBM3-0271; both exhibited binding to xylan rather than to cellulose. Comparative structural analysis of the two CBM3s provided a clear functional correlation of structure and binding, in which the two CBM3s lack the required number of binding residues in their cellulose-binding strips and thus lack cellulose-binding capabilities. This is an enigma, as CtCBM3-0271 was reported to be a highly expressed protein when the bacterium was grown on cellulose. An additional unexpected finding was that CcCBM3-1192 does not contain the calcium ion that was considered to play a structural stabilizing role in the CBM3 family. Despite the lack of calcium, the five residues that form the calcium-binding site are conserved. The absence of calcium results in conformational changes in two loops of the CcCBM3-1192 structure. In this context, superposition of the non-calcium-binding CcCBM3-1192 with CtCBM3-0271 and other calcium-binding CBM3s reveals a much broader two-loop region in the former compared with CtCBM3-0271.

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