Verfügbarkeit: Artificial metalloenzymes and metalloDNAzymes in catalysis

Artificial metalloenzymes and metalloDNAzymes in catalysis: from design to applications

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Bibliographische Detailangaben
Weitere Verfasser:	Diéguez, Montserrat (HerausgeberIn), Bäckvall, Jan-E. 1947- (HerausgeberIn), Pàmies, Oscar (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2018]
Schlagworte:	Enzymkatalyse Metallkomplexe Bioanorganische Chemie Biochemie Biochemistry Bioinorganic Chemistry Biowissenschaften Catalysis Catalysis & Chemical Reaction Engineering Chemical Engineering Chemie Chemische Verfahrenstechnik Chemistry Katalyse Katalyse u. Chemische Reaktionstechnik Life Sciences Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34178-8/ Inhaltsverzeichnis
Beschreibung:	xiv, 413 Seiten Illustrationen, Diagramme
ISBN:	9783527341788 3527341781

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264		1	\|a Weinheim \|b Wiley-VCH \|c [2018]
264		4	\|c © 2018
300			\|a xiv, 413 Seiten \|b Illustrationen, Diagramme
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653			\|a Bioinorganic Chemistry
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653			\|a Catalysis
653			\|a Catalysis & Chemical Reaction Engineering
653			\|a Chemical Engineering
653			\|a Chemie
653			\|a Chemische Verfahrenstechnik
653			\|a Chemistry
653			\|a Katalyse
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Datensatz im Suchindex

_version_	1804178971881897984
adam_text	CONTENTS PREFACE XIII 1 PREPARATION OF ARTIFICIAL METALLOENZYMES 1 JARED C LEWIS AND KEN ELLIS-GUARDIOLA 1.1 INTRODUCTION 1 1.2 ARM FORMATION VIA METAL BINDING 2 1.2.1 REPURPOSING NATURAL METALLOENZYMES 2 1.2.1.1 CARBOXYPEPTIDASE A 3 1.2.1.2 CARBONIC ANHYDRASE 3 1.2.1.3 METALLO-SS-LACTAMASE 4 1.2.1.4 FERRITIN 5 1.2.2 EXPLOITING SERENDIPITOUS METAL BINDING BY PROTEINS 6 1.2.3 DESIGNING METAL-BINDING SITES IN SCAFFOLD PROTEINS 8 1.2.4 INTRODUCING METAL-BINDING SITES USING UNNATURAL AMINO ACIDS 11 1.3 ARM FORMATION VIA SUPRAMOLECULAR INTERACTIONS 13 1.3.1 COFACTOR BINDING 14 1.3.1.1 HEME PROTEINS 14 1.3.1.2 XYLANASES 16 1.3.1.3 SERUM ALBUMINS 17 1.3.1.4 LACTOCOCCAL MULTIDRUG RESISTANCE REGULATOR 18 1.3.1.5 NIKA 18 1.3.1.6 ANTIBODIES 19 1.3.2 COFACTOR ANCHORING 20 1.3.2.1 (STREPT)AVIDIN 20 1.3.2.2 OTHER ANCHORING SCAFFOLDS 22 1.3.2.3 CARBOXYANHYDRASE 22 1.4 ARM FORMATION VIA COVALENT LINKAGE 23 1.4.1 ACTIVATED SERINE AND CYSTEINE RESIDUES 23 1.4.2 LYSINE RESIDUES 27 1.4.3 CYSTEINE RESIDUES 27 1.4.4 AZIDO PHENYLALANINE 30 1.5 CONCLUSION 31 ACKNOWLEDGMENTS 32 REFERENCES 32 2 PREPARATION OF METALLODNAZYMES 41 CLAIRE E. MCGHEE, RYAN J. LAKE, AND YI LU 2.1 INTRODUCTION 41 2.2 IN VITRO SELECTION OF METALLODNAZYMES IN THE PRESENCE OF METAL IONS 44 2.2.1 DESIGNING A DNAZYME POOL 45 2.2.1.1 SEQUENCE SPACE 45 2.2.1.2 CHOOSING THE LENGTH OF A RANDOM REGION 46 2.2.2 PERFORMING IN VITRO SELECTION 46 2.2.2.1 ISOLATION OF REACTIVE DNA SEQUENCES 47 2.2.2.2 NEGATIVE SELECTION 49 2.2.23 POOL REGENERATION 49 2.2.2A MONITORING SELECTION PROGRESS 51 2.2.2.5 SEQUENCING 51 2.2.2.6 SEQUENCE ANALYSIS 52 2.2.3 OPTIMIZATION OF DNAZYMES VIA TRUNCATION AND CIS-TO-TRANS TRANSFORMATION 52 2.2.4 RESELECTION OF DNAZYMES 53 2.3 FROM IN VITRO SELECTION TO DESIGN OF METALLODNAZYMES IN THE PRESENCE OF METALLOCOFACTORS 53 2.4 DESIGN AND PREPARATION OF DNA-BASED HYBRID CATALYSTS 54 2.4.1 SUPRAMOLECULARLY ANCHORED DNA-BASED HYBRID CATALYSTS 54 2.4.2 COVALENTLY ANCHORED DNA-BASED HYBRID CATALYSTS 57 2.5 SUMMARY AND FUTURE DIRECTIONS 58 ACKNOWLEDGMENTS 59 REFERENCES 59 3 EXPERIMENTAL CHARACTERIZATION TECHNIQUES OF HYBRID CATALYSTS 69 JUAN MANGAS-SANCHEZ AND EDUARDO BUSTO 3.1 INTRODUCTION 69 3.2 CHARACTERIZATION OF MODIFIED NATURALLY OCCURRING METALLOPROTEINS 69 3.3 CHARACTERIZATION OF NEW METALLOENZYMES CREATED FROM METAL-FREE PROTEINS 73 3.3.1 CHARACTERIZATION OF METALLOENZYMES OBTAINED THROUGH DIRECT METAL SALT C OM PILATION 73 3.3.2 CHARACTERIZATION OF METALLOENZYMES OBTAINED VIA COVALENT ANCHORAGE 77 3.3.3 CHARACTERIZATION OF ARTIFICIAL METALLOENZYMES VIA NON-COVALENT SUPRAMOLECULAR ANCHORING 84 3.3.4 EXPERIMENTAL CHARACTERIZATION OF ARTIFICIAL METALLOENZYMES WITH DUAL ACTIVITIES 87 3.4 CHARACTERIZATION OF DNAZYMES 88 3.5 CONCLUSIONS 92 ACKNOWLEDGMENTS 92 REFERENCES 92 4 COMPUTATIONAL STUDIES OF ARTIFICIAL METALLOENZYMES: FROM METHODS AND MODELS TO DESIGN AND OPTIMIZATION 99 JAIME RODRIGUEZ-GUERRA, LUR ALONSO-COTCHICO, GIUSEPPE SCIORTINO, AGUSTI LLEDOES, AND JEAN-DIDIER MARECHAL 4.1 INTRODUCTION 99 4.2 FROM COMPUTATIONAL TRANSITION METAL CATALYSIS TO ARTIFICIAL METALLOENZYMES DESIGN 100 4.3 THE TOOLBOX OF THE ARTIFICIAL ENZYME MODELER 105 4.3.1 FEW GENERALITIES ON MOLECULAR MODELING 105 4.3.2 ACCURATE PHYSICAL MODELS 106 4.3.3 SIMPLIFIED PHYSICAL MODELS 209 4.3.4 ADVANTAGES OF MM-LIKE METHODS 109 4.3.5 HYBRID AND MULTISCALE MODELS 112 4.4 APPLICATION OF COMPUTATIONAL METHODS TO THE OPTIMIZATION AND DESIGN OF ARTIFICIAL METALLOENZYMES 113 4.4.1 MODIFYING NATURALLY OCCURRING METALLOENZYMES 113 4.4.1.1 OPTIMIZING BIOMOLECULE-COFACTOR AND BIOHYBRID-SUBSTRATE BINDING 113 4.4.1.2 ACCOUNTING FOR CHANGES IN THE FIRST COORDINATION SPHERE 115 4.4.1.3 COMPUTATIONAL REDESIGN OF NATIVE METALLOENZYME ACTIVITY AND SELECTIVITY 116 4.4.1.4 MECHANISTIC ELUCIDATION OF REDESIGNED METALLOENZYMES 117 4.4.2 GENERATION OF ARTIFICIAL METALLOENZYMES FROM METAL-FREE ENZYMES 119 4.4.2.1 DE NOVO ARTIFICIAL METALLOENZYMES: A GENERAL OVERVIEW 119 4.4.2.2 THE PARTICULARITIES OF DE NOVO METALLOENZYMES 121 4.4.2.3 PROTEIN INTERACTIONS WITH ARTIFICIAL COFACTORS 122 4A2.4 SUBSTRATE BINDING AND COMPLETE MECHANISM 125 4.5 OUTLOOK 127 4.6 CONCLUSION 128 ACKNOWLEDGMENTS 128 REFERENCES 129 5 DIRECTED EVOLUTION OF ARTIFICIAL METALLOENZYMES: BRIDGING SYNTHETIC CHEMISTRY AND BIOLOGY 137 RUIJIE K. ZHANG, DAVID K. ROMNEY, 5. B. JENNIFER KAN, AND FRANCES H. ARNOLD 5.1 EVOLUTION ENABLES CHEMICAL INNOVATION 137 5.1.1 STRATEGIES FOR DIRECTED EVOLUTION 138 5.1.2 DIRECTED EVOLUTION AS AN UPHILL WALK IN THE PROTEIN FITNESS LANDSCAPE 139 5.2 DIRECTED EVOLUTION APPLIED TO NATURAL METALLOENZYMES 140 5.2.1 ENHANCING THE STABILITY OF A CARBONIC ANHYDRASE 140 5.2.2 EXPANDING THE SCOPE OF P450-CATALYZED OXIDATION REACTIONS 142 5.3 DIRECTED EVOLUTION OF HEMOPROTEINS FOR ABIOLOGICAL CATALYSIS 144 5.3.1 NONNATURAL CARBENE TRANSFER REACTIONS WITH ENGINEERED P450BM3 VARIANTS 145 5.3.2 NONNATURAL NITRENE TRANSFER REACTIONS WITH ENGINEERED P450BM3 VARIANTS 146 5.3.3 ENGINEERING CYTOCHROME C FOR NONNATURAL CATALYSIS 151 5.3.4 ENGINEERING MYOGLOBIN FOR NONNATURAL CATALYSIS 151 5.3.5 DIRECTED EVOLUTION OF MYOGLOBIN-DERIVED CATALYSTS CREATED THROUGH METAL-ION REPLACEMENT 154 5.4 METALLOENZYMES WITH ARTIFICIAL COFACTORS OR METAL-BINDING SITES 155 5.4.1 ARTIFICIAL HYDROLASE WITH BIOTIC METAL IONS IN DE NOVO BINDING SITES 155 5.4.2 ARTIFICIAL HYDROGENASES DERIVED FROM STREPTAVIDIN 157 5.4.3 CROSS-COUPLING WITH A PD-STREPTAVIDIN CONJUGATE 160 5.4.4 ALKENE METATHESIS CATALYZED BY AN RU-STREPTAVIDIN CONJUGATE 160 5.4.5 CARBENE TRANSFER WITH CONJUGATE OF RHODIUM AND PROLINE OLIGOPEPTIDASE 162 5.5 CONCLUSION 164 ACKNOWLEDGMENTS 166 REFERENCES 166 6 ARTIFICIAL METALLOENZYMES FOR HYDROGENATION AND TRANSFER HYDROGENATION REACTIONS 171 MANUEL BASAURI-MOLINA AND ROBERTUSJ. M. KLEIN GEBBINK 6.1 IMPACT OF METALLOHYDROGENASES IN THE FIELD OF ARTIFICIAL METALLOENZYMES 171 6.2 BIOTINYLATED METAL COMPLEXES IN AVIDIN AND STREPTAVIDIN 173 6.2.1 HYDROGENATION OF TV-PROTECTED AMINO ACIDS 173 6.2.2 TRANSFER HYDROGENATION OF KETONES 178 6.2.3 TRANSFER HYDROGENATION OF IMINES 180 6.2.4 ATHASES IN CASCADE REACTIONS 182 6.3 ARTIFICIAL ENZYMES WITH COVALENT METALLOPROTEIN CONSTITUTION 184 6.3.1 PAPAIN AND PHOTOACTIVE YELLOW PROTEIN 184 6.3.2 SERINE PROTEASES 188 6.3.3 HUMAN CARBONIC ANHYDRASE 191 6.4 CHEMOCATALYSTS EMBEDDED IN PROTEIN MOTIFS 191 6.5 CONCLUSIONS 193 REFERENCES 194 1 HYBRID CATALYSTS FOR OXIDATION REACTIONS 199 CHRISTINE CAVAZZA, CAROLINE MARCHI-DELAPIERRE, AND STEPHANE MENAGE 7.1 METAL SWITCH 201 7.2 STRUCTURAL MODULATION OF NATURAL ENZYMES 201 7.3 COFACTOR REPLACEMENT: RECONSTITUTION STRATEGY 206 7.4 RATIONAL DESIGN OF ENZYMES 209 7.5 DE NOVO SYNTHETIC ACTIVE SITE 211 7.6 DE NOVO PROTEIN SCAFFOLD 216 171 CONCLUDING REMARKS 219 REFERENCES 220 8 HYBRID CATALYSTS AS LEWIS ACID 225 GERARD ROELFES, IVANA DRIENOVSKA, AND LARA VILLARINO 8.1 INTRODUCTION 225 8.2 C -C BOND-FORMING REACTIONS 225 8.2.1 DIELS-ALDER REACTIONS 225 8.2.1.1 DNA-BASED HYBRID CATALYSTS 226 8.2.1.2 METALLOPEPTIDE-BASED HYBRID CATALYST 231 8.2.1.3 PROTEIN-BASED HYBRID CATALYSTS 231 8.2.2 CONJUGATE ADDITION REACTIONS 236 8.2.2.1 MICHAEL ADDITION 236 8.2.2.2 FRIEDEL-CRAFTS ALKYLATION 238 8.3 C-X BOND-FORMING REACTIONS 240 8.3.1 OXA-MICHAEL ADDITIONS 240 8.3.1.1 DNA-BASED HYBRID CATALYST 242 8.3.1.2 PROTEIN-BASED HYBRID CATALYSTS 242 8.3.2 FLUORINATIONS 243 8.4 HYDROLYTIC REACTIONS 244 8.4.1 DNA-BASED HYBRID CATALYST 244 8.4.2 PROTEIN-BASED HYBRID CATALYST 244 8.5 CONCLUSIONS AND OUTLOOK 246 REFERENCES 246 9 HYBRID CATALYSTS FOR C-H ACTIVATION AND OTHER X-H INSERTION REACTIONS 253 THOMAS R. WARD AND MICHELA M. PELLIZZONI 9.1 GENERAL INTRODUCTION 253 9.2 ARTIFICIAL METALLOENZYMES FOR C-H INSERTION 253 9.2.1 INTRODUCTION 253 9.2.2 ARTIFICIAL METALLOENZYMES BASED ON THE BIOTIN-STREPTAVIDIN TECHNOLOGY 254 9.2.3 ARTIFICIAL METALLOENZYMES BASED ON THE MYOGLOBIN SCAFFOLD 257 9.2.4 ARTIFICIAL METALLOENZYMES BASED ON POP SCAFFOLD 260 9.2.4.1 SI-H INSERTION 260 9.2.4.2 CYCLOPROPANATION 261 9.3 REPURPOSING HEMOPROTEINS FOR C-H INSERTION REACTIONS 262 9.3.1 INTRODUCTION 262 9.3.2 CYCLOPROPANATION 262 9.3.3 AZIRIDINATION 265 9.3.4 C-H AMINATION 266 9.3.5 N -H INSERTION 269 9.3.6 S-H INSERTION 271 9.3.7 SULFIMIDATION 274 9.3.8 SIGMATROPIC REARRANGEMENT 275 9.3.9 HALOGENATION 276 9.4 CONCLUSION 279 REFERENCES 279 10 HYBRID CATALYSTS FOR OTHER C-C AND C-X BOND FORMATION REACTIONS 285 PETER J. DEUSS, MEGAN V. DOBLE; AMANDA G. JARVIS, AND PAUL CJ. KARNER 10.1 INTRODUCTION 285 10.2 ALLYLIC SUBSTITUTION 286 10.2.1 CHIRAL PHOSPHANE LIGANDS BASED ON CHIRAL BUILDING BLOCKS FROM NATURE 286 10.2.2 PHOSPHANE-MODIFIED SYNTHETIC POLYPEPTIDES 287 10.2.3 PHOSPHANE-MODIFIED PROTEINS 289 10.2.4 OLIGONUCLEOTIDES-BASED HYBRID CATALYSTS 291 10.3 PALLADIUM-CATALYZED CROSS-COUPLING REACTIONS 296 10.4 HYDROFORMYLATION 302 10.5 PHENYLACETYLENE POLYMERIZATION 304 10.6 OLEFIN METATHESIS 307 10.7 SUMMARY AND FUTURE TRENDS 312 ACKNOWLEDGMENTS 314 REFERENCES 314 11 METAL-ENZYME HYBRID CATALYSTS IN CASCADE AND MULTICOMPONENT PROCESSES 321 BOI HOA SAN, JESS GUSTHART, SEUNG SEO LEE, AND KYEONG KYU KIM 11.1 INTRODUCTION 321 11.2 METAL-BASED CATALYST HYBRIDS WITH ENZYMES FOR CASCADE AND MULTICOMPONENT PROCESSES 322 11.2.1 GOLD NANOPARTICLE-BASED ENZYME HYBRID 324 11.2.2 PALLADIUM AND PLATINUM NANOPARTICLE-BASED ENZYME HYBRIDS 326 11.2.3 OTHER METALS USED FOR METAL-ENZYME HYBRID CATALYSTS 330 11.2.4 ORGANOMETALLIC MATERIAL HYBRID WITH PROTEIN/ENZYME 333 11.3 DESIGN STRATEGY FOR METAL-ENZYME HYBRID CATALYSTS IN MULTICOMPONENT CASCADE REACTIONS 334 11.3.1 DESIGN STRATEGIES FOR DEVELOPING MULTISTEP REACTIONS IN METAL-ENZYME HYBRID CATALYSTS 335 11.4 REACTION MECHANISMS OF METAL-ENZYME HYBRID CATALYSTS IN MULTICOMPONENT CASCADE REACTIONS 339 11.4.1 EXAMPLES OF CASCADE REACTIONS 340 11.4.2 MECHANISMS OF COMMONLY USED ENZYMES 341 11.5 CONCLUSION AND FUTURE PERSPECTIVES 343 ACKNOWLEDGMENTS 343 REFERENCES 343 12 METALLOENZYME-LNSPIRED SYSTEMS FOR ALTERNATIVE ENERGY HARVEST 353 MARKUS D. KAERKAES, OSCAR VERHO, AND BJOERN AEKERMARK 12.1 INTRODUCTION: ARTIFICIAL PHOTOSYNTHESIS 353 12.2 HYDROGEN EVOLUTION 355 12.2.1 HYDROGENASES: IRON-BASED METALLOENZYMES FOR HYDROGEN EVOLUTION 355 12.2.2 OTHER METAL-BASED BIOHYBRID SYSTEMS FOR HYDROGEN PRODUCTION 363 12.3 HYBRID SYSTEMS FOR OVERALL WATER SPLITTING 364 12.4 BIOINSPIRED SYSTEMS FOR 0 2 REDUCTION 364 12.4.1 SIMPLE BIOELECTRODES FOR APPLICATIONS IN BIOSENSING 366 12.4.2 MULTICATALYTIC HYBRID SYSTEMS FOR MORE EFFICIENT BIOELECTRODES 367 12.4.3 FUTURE DIRECTIONS IN BIOELECTROCATALYSIS RESEARCH 370 12.5 CONCLUSIONS AND OUTLOOK 372 ACKNOWLEDGMENTS 373 REFERENCES 373 13 SYNTHESIS AND APPLICATION OF HYBRID CATALYSTS WITH METALLOENZYME-LIKE PROPERTIES 383 JOSE M. POLOMO 13.1 INTRODUCTION 383 13.2 SYNTHESIS OF PD NANOBIOHYBRIDS (PD(O)NPS-ENZYME HYBRIDS) 384 13.3 SYNTHESIS OF AU NANOBIOHYBRIDS 387 13.4 SYNTHESIS OF AG NANOBIOHYBRIDS 391 13.5 SYNTHESIS OF CU NANOBIOHYBRIDS 392 13.6 SYNTHESIS OF PT NANOBIOHYBRIDS 394 13.7 CHEMICAL APPLICATIONS OF NANOBIOHYBRIDS 395 13.7.1 SYNERGISTIC EFFECT 396 13.7.2 DUAL ACTIVITY IN CASCADE PROCESSES 396 13.8 CONCLUSIONS 399 ACKNOWLEDGMENTS 400 REFERENCES 400 INDEX 405
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genre_facet	Aufsatzsammlung
id	DE-604.BV045238809
illustrated	Illustrated
indexdate	2024-07-10T08:12:27Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527341788 3527341781
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030627040
oclc_num	1037983535
open_access_boolean
owner	DE-19 DE-BY-UBM DE-83 DE-11
owner_facet	DE-19 DE-BY-UBM DE-83 DE-11
physical	xiv, 413 Seiten Illustrationen, Diagramme
publishDate	2018
publishDateSearch	2018
publishDateSort	2018
publisher	Wiley-VCH
record_format	marc
spelling	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications edited by Montserrat Diéguez, Jan-E. Bäckvall, Oscar Pàmies Weinheim Wiley-VCH [2018] © 2018 xiv, 413 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Enzymkatalyse (DE-588)4152480-9 gnd rswk-swf Metallkomplexe (DE-588)4038898-0 gnd rswk-swf Bioanorganische Chemie Biochemie Biochemistry Bioinorganic Chemistry Biowissenschaften Catalysis Catalysis & Chemical Reaction Engineering Chemical Engineering Chemie Chemische Verfahrenstechnik Chemistry Katalyse Katalyse u. Chemische Reaktionstechnik Life Sciences (DE-588)4143413-4 Aufsatzsammlung gnd-content Metallkomplexe (DE-588)4038898-0 s Enzymkatalyse (DE-588)4152480-9 s DE-604 Diéguez, Montserrat (DE-588)1158533683 edt Bäckvall, Jan-E. 1947- (DE-588)129357588 edt Pàmies, Oscar (DE-588)1158534019 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-80407-8 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-80409-2 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-80406-1 Erscheint auch als Online-Ausgabe, OBOOK 978-3-527-80408-5 B:DE-101 application/pdf http://d-nb.info/1155189426/04 Inhaltsverzeichnis X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34178-8/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030627040&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications Enzymkatalyse (DE-588)4152480-9 gnd Metallkomplexe (DE-588)4038898-0 gnd
subject_GND	(DE-588)4152480-9 (DE-588)4038898-0 (DE-588)4143413-4
title	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications
title_auth	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications
title_exact_search	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications
title_full	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications edited by Montserrat Diéguez, Jan-E. Bäckvall, Oscar Pàmies
title_fullStr	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications edited by Montserrat Diéguez, Jan-E. Bäckvall, Oscar Pàmies
title_full_unstemmed	Artificial metalloenzymes and metalloDNAzymes in catalysis from design to applications edited by Montserrat Diéguez, Jan-E. Bäckvall, Oscar Pàmies
title_short	Artificial metalloenzymes and metalloDNAzymes in catalysis
title_sort	artificial metalloenzymes and metallodnazymes in catalysis from design to applications
title_sub	from design to applications
topic	Enzymkatalyse (DE-588)4152480-9 gnd Metallkomplexe (DE-588)4038898-0 gnd
topic_facet	Enzymkatalyse Metallkomplexe Aufsatzsammlung
url	http://d-nb.info/1155189426/04 http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34178-8/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030627040&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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