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Chapter 9 Immobilization of Biocatalysts
Chapter 9 Immobilization of Biocatalysts MatrixEntrappe d
9.1.Introduction 9.2.Biocatalysts 9.2.1.Enzymes ◆Specificity Active site Substrates Enzyme-substrate Product complex Schematic representation of an enzyme active site.and its importance in determining enzyme specificity Catalytic Power 9.2.2. Ribozymes RNA 9.2.3.Abzymes
9.1. Introduction 9.2. Biocatalysts 9.2.1. Enzymes ◆ Specificity ◆ Catalytic Power 9.2.2. Ribozymes RNA 9.2.3. Abzymes
9.2.4.Multienzyme complex PDC(the pyruvate dehydrogenase complex) ◆Proteosome ◆Cellulosome Multienzyme Complexes and Immobilization Technology
9.2.4. Multienzyme complex ◆ PDC (the pyruvate dehydrogenase complex) ◆ Proteosome ◆ Cellulosome ◆ Multienzyme Complexes and Immobilization Technology
Substrates B Products Illustration of an immobilized modular multienzyme complex.The scheme shows a universal support material (1).Universal linker proteins (2)with fexible hinding characteristics (similar to antibodies)bind and immobilize various catalytic (C)enzyme modules,regulatory (R)modules and substrate binding (B)modules to the support material,and create a programmed reaction pathway for multi-step conversion of substrates to products
9.2.5.Cells >Animal Cells > Plant Cells Microorganisms(Bacteria,Yeast and Filamentous Funji) 9.2.6.Biocatalyst Selection
9.2.5. Cells ➢ Animal Cells ➢ Plant Cells ➢ Microorganisms (Bacteria, Yeast and Filamentous Funji) 9.2.6. Biocatalyst Selection
