TtCel7A: A Native Thermophilic Bifunctional Cellulose/Xylanase Exogluclanase from the Thermophilic Biomass-Degrading Fungus Thielavia terrestris Co3Bag1, and Its Application in Enzymatic Hydrolysis of Agroindustrial Derivatives

The biomass-degrading thermophilic ascomycete fungus Co3Bag1 produces TtCel7A, a native bifunctional cellulase/xylanase GH7 family. The purified TtCel7A, with an estimated molecular weight of 71 kDa, was biochemically characterized. TtCel7A displayed an optimal pH of 5.5 for both activities and an o...

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Bibliographic Details
Published in:Journal of fungi (Basel) 2023-01, Vol.9 (2), p.152
Main Authors: López-López, Azucena, Santiago-Hernández, Alejandro, Cayetano-Cruz, Maribel, García-Huante, Yolanda, Campos, Jorge E, Bustos-Jaimes, Ismael, Marsch-Moreno, Rodolfo, Cano-Ramírez, Claudia, Benitez-Cardoza, Claudia G, Hidalgo-Lara, María Eugenia
Format: Article
Language:English
Subjects:
Bagasse
bifunctional enzyme
Biomass
Carbohydrates
Cellobiose
Cellulase
cellulase/xylanase
Cellulose
Circular dichroism
Enzymes
exoglucanase
Fungi
Glucose
Glycerol
Industrial applications
Lignocellulose
Microorganisms
Molecular weight
Protein structure
Proteins
purification
Secondary structure
Sugarcane
thermostability
Thielavia terrestris
Xylan
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Summary:The biomass-degrading thermophilic ascomycete fungus Co3Bag1 produces TtCel7A, a native bifunctional cellulase/xylanase GH7 family. The purified TtCel7A, with an estimated molecular weight of 71 kDa, was biochemically characterized. TtCel7A displayed an optimal pH of 5.5 for both activities and an optimal temperature of 60 and 50 °C for cellulolytic and xylanolytic activities, respectively. The half-lives determined for cellulase activity were 140, 106, and 41 min at 50, 60, and 70 °C, respectively, whereas the half-lives observed for xylanase activity were 24, 10, and 1.4 h at 50, 60, and 70 °C, respectively. The and V values were 3.12 mg/mL and 50 U/mg for cellulase activity and 0.17 mg/mL and 42.75 U/mg for xylanase activity. Circular dichroism analysis suggests changes in the secondary structure of TtCel7A in the presence of CMC as the substrate, whereas no modifications were observed with beechwood xylan. TtCel7A displayed the excellent capability to hydrolyze CMC, beechwood xylan, and complex substrates such as oat bran, wheat bran, and sugarcane bagasse, with glucose and cellobiose being the main products released; also, slightly less endo cellulase and xylanase activities were observed. Thus, suggesting TtCel7A has an exo- and endomode of action. Based on the characteristics of the enzyme, it might be considered a good candidate for industrial applications.
ISSN:2309-608X
2309-608X
DOI:10.3390/jof9020152