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Controlled Aggregation and Increased Stability of ?-Glucuronidase by Cellulose Binding Domain Fusion.


ABSTRACT: Cellulose-binding domains (CBDs) are protein domains with cellulose-binding activity, and some act as leaders in the localization of cellulosomal scaffoldin proteins to the hydrophobic surface of crystalline cellulose. In this study, we found that a CBD fusion enhanced and improved soluble ?-glucuronidase (GusA) enzyme properties through the formation of an artificially oligomeric state. First, a soluble CBD fused to the C-terminus of GusA (GusA-CBD) was obtained and characterized. Interestingly, the soluble GusA-CBD showed maximum activity at higher temperatures (65°C) and more acidic pH values (pH 6.0) than free GusA did (60°C and pH 7.5). Moreover, the GusA-CBD enzyme showed higher thermal and pH stabilities than the free GusA enzyme did. Additionally, GusA-CBD showed higher enzymatic activity in the presence of methanol than free GusA did. Evaluation of the protease accessibility of both enzymes revealed that GusA-CBD retained 100% of its activity after 1 h incubation in 0.5 mg/ml protease K, while free GusA completely lost its activity. Simple fusion of CBD as a single domain may be useful for tunable enzyme states to improve enzyme stability in industrial applications.

SUBMITTER: Yeom SJ 

PROVIDER: S-EPMC5242468 | biostudies-literature | 2017

REPOSITORIES: biostudies-literature

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Controlled Aggregation and Increased Stability of β-Glucuronidase by Cellulose Binding Domain Fusion.

Yeom Soo-Jin SJ   Han Gui Hwan GH   Kim Moonjung M   Kwon Kil Koang KK   Fu Yaoyao Y   Kim Haseong H   Lee Hyewon H   Lee Dae-Hee DH   Jung Heungchae H   Lee Seung-Goo SG  

PloS one 20170118 1


Cellulose-binding domains (CBDs) are protein domains with cellulose-binding activity, and some act as leaders in the localization of cellulosomal scaffoldin proteins to the hydrophobic surface of crystalline cellulose. In this study, we found that a CBD fusion enhanced and improved soluble β-glucuronidase (GusA) enzyme properties through the formation of an artificially oligomeric state. First, a soluble CBD fused to the C-terminus of GusA (GusA-CBD) was obtained and characterized. Interestingly  ...[more]

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