The Resource Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall
Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall
Resource Information
The item Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri Libraries.This item is available to borrow from 2 library branches.
Resource Information
The item Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri Libraries.
This item is available to borrow from 2 library branches.
- Summary
- With contributions from leading academics around the world, this book makes a ground-breaking contribution to the field of biocatalysis and is essential reading for graduates and researchers investigating (bio)catalysis, enzyme engineering, chemical biology, and synthetic biology
- Language
- eng
- Extent
- 1 online resource (574 pages)
- Note
-
- Includes index
- Title from title details screen
- Contents
-
- Cover; Preface; Contents; Section I: Accessing New Enzymes; Chapter 1 Genome Mining for Enzyme Discovery; 1.1 Introduction; 1.2 Text-based Searches Using Enzyme Name; 1.3 Sequence-driven Approaches; 1.3.1 Probe Technology Based on PCR Primer Design; 1.3.2 Pairwise Sequence Alignment-based Strategy; 1.3.3 Signature-/Key Motif-based Strategy; 1.4 3D Structure-guided Approach; 1.4.1 Exploring 3D Structures of Proteins; 1.4.2 Active Site Topology/Constellation-guided Strategy; 1.5 Conclusion; References; Chapter 2 Exploiting Natural Diversity for Industrial Enzymatic Applications
- 2.1 Introduction2.2 Screening Enzymes from Soil Microbes, Plants, and Animals (Millipede) by Activity Measurement; 2.2.1 Hydrolases; 2.2.2 Oxidoreductases; 2.2.3 Lyases; 2.3 Genetic Approaches to Natural Enzyme Sources; 2.3.1 Isomerases; 2.3.2 Oxidoreductases; 2.4 Creation of Amine Oxidase by Directed Evolution of D-Amino Acid Oxidase; 2.5 From Discovery to Application -- Aldoxime Dehydratases; 2.5.1 Isolation, Characterization and Comparison of Aldoxime Dehydratases; 2.5.2 Iron Heme Redox Catalysis and Mechanistic Studies; 2.5.3 Substrate Spectrum of Aldoxime Dehydratases
- 2.5.4 Application of Oxds for Nitrile Synthesis2.5.5 Perspectives; 2.6 Conclusion; Acknowledgements; References; Chapter 3 Artificial Metalloenzymes; 3.1 Introduction; 3.2 Direct Insertion of Inorganic Metal Ions into Proteins; 3.2.1 Carbonic Anhydrase; 3.2.2 Ferritin; 3.2.3 Serum Albumins; 3.2.4 Phytase and Other Proteins; 3.3 Supramolecular Anchoring of Metal Cofactors; 3.3.1 The ""Trojan-Horse"" Strategy; 3.3.2 The ""Host-Guest"" Strategy; 3.4 Covalent Linking of Metallic Cofactors to a Protein; 3.5 Cascade Reactions; 3.6 Conclusion; References
- Chapter 4 Computational Enzyme Design: Successes, Challenges, and Future Directions4.1 Introduction; 4.2 Examples of Computational Enzyme Design; 4.2.1 Phase I: Initial Application of CPD Towards Enzyme Design; 4.2.2 Phase II: Incorporation of TransitionStates and Theozymes into Computational Enzyme Design; 4.3 Challenges in Computational Enzyme Design; 4.4 Future Directions; 4.5 Conclusions; Acknowledgements; References; Section II: Understanding and Engineering Enzymes; Chapter 5 Computational Techniques for Efficient Biocatalysis; 5.1 Introduction to Computational Biocatalysis
- 5.1.1 Bioinformatic Tools5.1.2 Ancestral Gene Resurrection; 5.1.3 Structure-based Computational Tools; 5.1.4 QM Computational Tools; 5.1.5 Molecular Mechanics and Molecular Dynamics Computational Tools; 5.1.6 QM/MM; 5.2 Implementation of Computational Tools in Biocatalysis; 5.2.1 Identification of Novel Biocatalysts from Sequence Space; 5.2.2 Ancestral Enzyme Reconstruction for the Study and Engineering of Binding and Catalysis; 5.3 Structural-based In Silico Modelling for Efficient Biocatalysis
- Isbn
- 9781523119431
- Label
- Modern biocatalysis : advances towards synthetic biological systems
- Title
- Modern biocatalysis
- Title remainder
- advances towards synthetic biological systems
- Statement of responsibility
- editors: Gavin Williams, Mélanie Hall
- Language
- eng
- Summary
- With contributions from leading academics around the world, this book makes a ground-breaking contribution to the field of biocatalysis and is essential reading for graduates and researchers investigating (bio)catalysis, enzyme engineering, chemical biology, and synthetic biology
- Cataloging source
- UKRSC
- Dewey number
- 547/.215
- Index
- index present
- LC call number
- TP248.25.B55
- Literary form
- non fiction
- Nature of contents
- dictionaries
- NLM call number
-
- 2018 G-972
- QU 135
- http://library.link/vocab/relatedWorkOrContributorName
-
- Williams, Gavin
- Hall, Mélanie
- Series statement
- RSC catalysis series
- Series volume
- 32
- http://library.link/vocab/subjectName
-
- Biocatalysis
- Biochemistry
- Biotechnology
- SCIENCE
- Biocatalysis
- Label
- Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall
- Note
-
- Includes index
- Title from title details screen
- Antecedent source
- unknown
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Color
- multicolored
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Cover; Preface; Contents; Section I: Accessing New Enzymes; Chapter 1 Genome Mining for Enzyme Discovery; 1.1 Introduction; 1.2 Text-based Searches Using Enzyme Name; 1.3 Sequence-driven Approaches; 1.3.1 Probe Technology Based on PCR Primer Design; 1.3.2 Pairwise Sequence Alignment-based Strategy; 1.3.3 Signature-/Key Motif-based Strategy; 1.4 3D Structure-guided Approach; 1.4.1 Exploring 3D Structures of Proteins; 1.4.2 Active Site Topology/Constellation-guided Strategy; 1.5 Conclusion; References; Chapter 2 Exploiting Natural Diversity for Industrial Enzymatic Applications
- 2.1 Introduction2.2 Screening Enzymes from Soil Microbes, Plants, and Animals (Millipede) by Activity Measurement; 2.2.1 Hydrolases; 2.2.2 Oxidoreductases; 2.2.3 Lyases; 2.3 Genetic Approaches to Natural Enzyme Sources; 2.3.1 Isomerases; 2.3.2 Oxidoreductases; 2.4 Creation of Amine Oxidase by Directed Evolution of D-Amino Acid Oxidase; 2.5 From Discovery to Application -- Aldoxime Dehydratases; 2.5.1 Isolation, Characterization and Comparison of Aldoxime Dehydratases; 2.5.2 Iron Heme Redox Catalysis and Mechanistic Studies; 2.5.3 Substrate Spectrum of Aldoxime Dehydratases
- 2.5.4 Application of Oxds for Nitrile Synthesis2.5.5 Perspectives; 2.6 Conclusion; Acknowledgements; References; Chapter 3 Artificial Metalloenzymes; 3.1 Introduction; 3.2 Direct Insertion of Inorganic Metal Ions into Proteins; 3.2.1 Carbonic Anhydrase; 3.2.2 Ferritin; 3.2.3 Serum Albumins; 3.2.4 Phytase and Other Proteins; 3.3 Supramolecular Anchoring of Metal Cofactors; 3.3.1 The ""Trojan-Horse"" Strategy; 3.3.2 The ""Host-Guest"" Strategy; 3.4 Covalent Linking of Metallic Cofactors to a Protein; 3.5 Cascade Reactions; 3.6 Conclusion; References
- Chapter 4 Computational Enzyme Design: Successes, Challenges, and Future Directions4.1 Introduction; 4.2 Examples of Computational Enzyme Design; 4.2.1 Phase I: Initial Application of CPD Towards Enzyme Design; 4.2.2 Phase II: Incorporation of TransitionStates and Theozymes into Computational Enzyme Design; 4.3 Challenges in Computational Enzyme Design; 4.4 Future Directions; 4.5 Conclusions; Acknowledgements; References; Section II: Understanding and Engineering Enzymes; Chapter 5 Computational Techniques for Efficient Biocatalysis; 5.1 Introduction to Computational Biocatalysis
- 5.1.1 Bioinformatic Tools5.1.2 Ancestral Gene Resurrection; 5.1.3 Structure-based Computational Tools; 5.1.4 QM Computational Tools; 5.1.5 Molecular Mechanics and Molecular Dynamics Computational Tools; 5.1.6 QM/MM; 5.2 Implementation of Computational Tools in Biocatalysis; 5.2.1 Identification of Novel Biocatalysts from Sequence Space; 5.2.2 Ancestral Enzyme Reconstruction for the Study and Engineering of Binding and Catalysis; 5.3 Structural-based In Silico Modelling for Efficient Biocatalysis
- Control code
- 1041854598
- Dimensions
- unknown
- Extent
- 1 online resource (574 pages)
- File format
- unknown
- Form of item
- online
- Isbn
- 9781523119431
- Level of compression
- unknown
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- http://library.link/vocab/ext/overdrive/overdriveId
- 4771:4623
- Quality assurance targets
- not applicable
- Reformatting quality
- unknown
- Sound
- unknown sound
- Specific material designation
- remote
- System control number
- (OCoLC)1041854598
- Label
- Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall
- Note
-
- Includes index
- Title from title details screen
- Antecedent source
- unknown
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Color
- multicolored
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Cover; Preface; Contents; Section I: Accessing New Enzymes; Chapter 1 Genome Mining for Enzyme Discovery; 1.1 Introduction; 1.2 Text-based Searches Using Enzyme Name; 1.3 Sequence-driven Approaches; 1.3.1 Probe Technology Based on PCR Primer Design; 1.3.2 Pairwise Sequence Alignment-based Strategy; 1.3.3 Signature-/Key Motif-based Strategy; 1.4 3D Structure-guided Approach; 1.4.1 Exploring 3D Structures of Proteins; 1.4.2 Active Site Topology/Constellation-guided Strategy; 1.5 Conclusion; References; Chapter 2 Exploiting Natural Diversity for Industrial Enzymatic Applications
- 2.1 Introduction2.2 Screening Enzymes from Soil Microbes, Plants, and Animals (Millipede) by Activity Measurement; 2.2.1 Hydrolases; 2.2.2 Oxidoreductases; 2.2.3 Lyases; 2.3 Genetic Approaches to Natural Enzyme Sources; 2.3.1 Isomerases; 2.3.2 Oxidoreductases; 2.4 Creation of Amine Oxidase by Directed Evolution of D-Amino Acid Oxidase; 2.5 From Discovery to Application -- Aldoxime Dehydratases; 2.5.1 Isolation, Characterization and Comparison of Aldoxime Dehydratases; 2.5.2 Iron Heme Redox Catalysis and Mechanistic Studies; 2.5.3 Substrate Spectrum of Aldoxime Dehydratases
- 2.5.4 Application of Oxds for Nitrile Synthesis2.5.5 Perspectives; 2.6 Conclusion; Acknowledgements; References; Chapter 3 Artificial Metalloenzymes; 3.1 Introduction; 3.2 Direct Insertion of Inorganic Metal Ions into Proteins; 3.2.1 Carbonic Anhydrase; 3.2.2 Ferritin; 3.2.3 Serum Albumins; 3.2.4 Phytase and Other Proteins; 3.3 Supramolecular Anchoring of Metal Cofactors; 3.3.1 The ""Trojan-Horse"" Strategy; 3.3.2 The ""Host-Guest"" Strategy; 3.4 Covalent Linking of Metallic Cofactors to a Protein; 3.5 Cascade Reactions; 3.6 Conclusion; References
- Chapter 4 Computational Enzyme Design: Successes, Challenges, and Future Directions4.1 Introduction; 4.2 Examples of Computational Enzyme Design; 4.2.1 Phase I: Initial Application of CPD Towards Enzyme Design; 4.2.2 Phase II: Incorporation of TransitionStates and Theozymes into Computational Enzyme Design; 4.3 Challenges in Computational Enzyme Design; 4.4 Future Directions; 4.5 Conclusions; Acknowledgements; References; Section II: Understanding and Engineering Enzymes; Chapter 5 Computational Techniques for Efficient Biocatalysis; 5.1 Introduction to Computational Biocatalysis
- 5.1.1 Bioinformatic Tools5.1.2 Ancestral Gene Resurrection; 5.1.3 Structure-based Computational Tools; 5.1.4 QM Computational Tools; 5.1.5 Molecular Mechanics and Molecular Dynamics Computational Tools; 5.1.6 QM/MM; 5.2 Implementation of Computational Tools in Biocatalysis; 5.2.1 Identification of Novel Biocatalysts from Sequence Space; 5.2.2 Ancestral Enzyme Reconstruction for the Study and Engineering of Binding and Catalysis; 5.3 Structural-based In Silico Modelling for Efficient Biocatalysis
- Control code
- 1041854598
- Dimensions
- unknown
- Extent
- 1 online resource (574 pages)
- File format
- unknown
- Form of item
- online
- Isbn
- 9781523119431
- Level of compression
- unknown
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- http://library.link/vocab/ext/overdrive/overdriveId
- 4771:4623
- Quality assurance targets
- not applicable
- Reformatting quality
- unknown
- Sound
- unknown sound
- Specific material designation
- remote
- System control number
- (OCoLC)1041854598
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<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.missouri.edu/portal/Modern-biocatalysis--advances-towards-synthetic/DhKLT_pK1S4/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.missouri.edu/portal/Modern-biocatalysis--advances-towards-synthetic/DhKLT_pK1S4/">Modern biocatalysis : advances towards synthetic biological systems, editors: Gavin Williams, Mélanie Hall</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.missouri.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.missouri.edu/">University of Missouri Libraries</a></span></span></span></span></div>
