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In Silico Engineering of Disulphide Bonds to Produce Stable Cellulase

This Brief highlights different approaches used to create stable cellulase and its use in different fields. Cellulase is an industrial enzyme with a broad range of significant applications in biofuel production and cellulosic waste management. Cellulase 7a from Trichoderma reesei is the most efficie...

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Bibliographic Details
Main Authors: Barati, Bahram, Sadegh Amiri, Iraj (Author)
Format: eBook
Language:English
Published: Singapore Springer Nature Singapore 2015, 2015
Edition:1st ed. 2015
Series:SpringerBriefs in Applied Sciences and Technology
Subjects:
Renewable Energy
Chemical Bioengineering
Bioinformatics
Computational And Systems Biology
Chemistry, Technical
Renewable Energy Sources
Computational Chemistry
Biotechnology
Chemistry / Data Processing
Industrial Chemistry
Online Access:
Collection: Springer eBooks 2005- - Collection details see MPG.ReNa
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520 |a This Brief highlights different approaches used to create stable cellulase and its use in different fields. Cellulase is an industrial enzyme with a broad range of significant applications in biofuel production and cellulosic waste management. Cellulase 7a from Trichoderma reesei is the most efficient enzyme in the biohydrolysis of cellulose. In order to improve its thermal stability, it can be engineered using a variety of approaches, such as hydrophobic interactions, aromatic interactions, hydrogen bonds, ion pairs and disulfide bridge creation 

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