LEADER 00000cam a2200757Ki 4500 
001    on1041854598 
003    OCoLC 
005    20200110050929.6 
006    m     o  d         
007    cr cnu|||unuuu 
008    180625s2018    enk     o     001 0 eng d 
015    GBB873321|2bnb 
015    GBB8I4455|2bnb 
016 7  018838870|2Uk 
016 7  019064573|2Uk 
019    1041484637 
020    9781788010450|q(electronic book) 
020    1788010450|q(electronic book) 
020    9781788014533 
020    1788014537 
020    9781523119431|q(electronic book) 
020    1523119438|q(electronic book) 
020    |z9781782627265|q(print) 
020    |z178262726X|q(print) 
035    (OCoLC)1041854598|z(OCoLC)1041484637 
037    4771:4623|bRoyal Society of Chemistry|nhttp://www.rsc.org/
       spr 
040    UKRSC|beng|erda|epn|cUKRSC|dN$T|dCOO|dEBLCP|dUIU|dMERER
       |dOCLCF|dOCLCQ|dNLE|dSTF|dUAB|dUKMGB|dLVT|dERL|dKNOVL|dESU
       |dUKAHL|dOCLCQ 
049    RIDW 
050  4 TP248.25.B55 
072  7 SCI|x013040|2bisacsh 
072  7 PSB|2bicssc 
072  7 TCB|2bicssc 
082 04 547/.215|223 
090    TP248.25.B55 
245 00 Modern biocatalysis :|badvances towards synthetic 
       biological systems /|ceditors: Gavin Williams, Mélanie 
       Hall. 
264  1 Cambridge :|bRoyal Society of Chemistry,|c2018. 
300    1 online resource (574 pages). 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
340    |gpolychrome|2rdacc 
347    text file|2rdaft 
490 1  RSC catalysis series ;|v32 
500    Includes index. 
500    Title from title details screen. 
505 0  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 
505 8  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 
505 8  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
505 8  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 
505 8  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 theStudy 
       and Engineering of Binding and Catalysis; 5.3 Structural-
       based In Silico Modelling for Efficient Biocatalysis 
520    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. 
590    eBooks on EBSCOhost|bEBSCO eBook Subscription Academic 
       Collection - North America 
650  0 Biocatalysis.|0https://id.loc.gov/authorities/subjects/
       sh2013002148 
650  7 Biocatalysis.|2fast|0https://id.worldcat.org/fast/1896571 
655  4 Electronic books. 
700 1  Williams, Gavin|c(Professor of chemistry),|0https://
       id.loc.gov/authorities/names/n2018188415|eeditor. 
700 1  Hall, Mélanie,|d1980-|0https://id.loc.gov/authorities/
       names/n2018188417|eeditor. 
776 08 |iPrint version:|z9781782627265 
830  0 RSC catalysis series ;|0https://id.loc.gov/authorities/
       names/no2008189149|vno. 32. 
856 40 |uhttps://rider.idm.oclc.org/login?url=http://
       search.ebscohost.com/login.aspx?direct=true&scope=site&
       db=nlebk&AN=1841267|zOnline eBook via EBSCO. Access 
       restricted to current Rider University students, faculty, 
       and staff. 
856 42 |3Instructions for reading/downloading the EBSCO version 
       of this eBook|uhttp://guides.rider.edu/ebooks/ebsco 
901    MARCIVE 20231220 
948    |d20200122|cEBSCO|tEBSCOebooksacademic NEW 12-21,1-17 
       11948|lridw 
994    92|bRID