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Full Description
NanoArmored Enzymes for High Temperature Biocatalysis provides insight on the central theme of entropy minimization for the stabilization of enzymes using linear synthetic polymers. The book describes methods for the conversion of ordinary enzymes into those that can withstand organic solvents, extreme pHs and higher temperatures. Many books written about enzyme stabilization employ a variety of hit-or-miss approaches, but rational approaches based on molecular engineering were never explored. This book addresses missing links in the field of enzyme catalysis at high temperature by exploiting the polymer encapsulation of enzymes based on a solid foundation of physical chemistry principles.
Contents
1. Enzymes and their uses 2. Utility of enzymes for biocatalysis 3. Enzyme stabilization problem 4. Conventional enzyme-polymer conjugates 5. Synthesis of enzyme-polymer conjugates via `Molecular Engineering' 6. Synthesis of bi-enzyme-polymer conjugates 7. Modification of the polymer-armor for catalysis in organic solvents 8. Synthesis of multi enzyme-polymer conjugates 9. Synthesis of graphene-enzyme-polymer conjugates 10. Biocatalysis with NanoArmored enzymes under harsh conditions 11. Advantages and disadvatages of NanoArmored Enzymes 12. Conclusions and future directions of NaoArmoring of Enzymes
