Verfügbarkeit: Enzyme engineering

Enzyme engineering: selective catalysts for applications in biotechnology, organic chemistry, and life science

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Reetz, Manfred T. 1943- (VerfasserIn), Sun, Zhoutong (VerfasserIn), Qu, Ge (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2023]
Schlagworte:	Enzymkatalyse Proteindesign Biotechnologie i. d. Biowissenschaften Biotechnology Biowissenschaften CH81: Organische Chemie / Methoden, Synthesen, Verfahren CHB4: Proteine Chemie Chemistry LS35: Biotechnologie i. d. Biowissenschaften Life Sciences Methods - Synthesis & Techniques Organische Chemie / Methoden, Synthesen, Verfahren Protein Science Proteine
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35033-9/ Inhaltsverzeichnis
Beschreibung:	xii, 387 Seiten Illustrationen, Diagramme (teilweise farbig) 24.4 cm x 17 cm
ISBN:	9783527350339

Internformat

MARC


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adam_text	V CONTENTS PREFACE IX ABOUT THE AUTHORS XI 1 INTRODUCTION TO DIRECTED EVOLUTION AND RATIONAL DESIGN AS PROTEIN ENGINEERING TECHNIQUES 1 1.1 METHODS AND AIMS OF DIRECTED ENZYME EVOLUTION 1 1.2 HISTORY OF DIRECTED ENZYME EVOLUTION 4 1.3 METHODS AND AIMS OF RATIONAL DESIGN OF ENZYMES 19 REFERENCES 21 2 SCREENING AND SELECTION TECHNIQUES 29 2.1 INTRODUCTORY REMARKS 29 2.2 SCREENING METHODS 29 2.3 SELECTION METHODS 38 2.4 CONCLUSIONS AND PERSPECTIVES 52 REFERENCES 53 3 GENE MUTAGENESIS METHODS IN DIRECTED EVOLUTION AND RATIONAL ENZYME DESIGN 59 3.1 INTRODUCTORY REMARKS 59 3.2 DIRECTED EVOLUTION APPROACHES 59 3.2.1 MUTATOR STRAINS 59 3.2.2 ERROR-PRONE POLYMERASE CHAIN REACTION (EPPCR) 60 3.2.3 WHOLE GENE INSERTION/DELETION MUTAGENESIS 66 3.2.4 SATURATION MUTAGENESIS AS A PRIVILEGED METHOD: AWAY FROM BLIND DIRECTED EVOLUTION 73 3.2.5 DNA SHUFFLING AND RELATED RECOMBINANT GENE MUTAGENESIS METHODS 89 3.2.6 CIRCULAR MUTATION AND OTHER DOMAIN SWAPPING TECHNIQUES 94 3.2.7 SOLID-PHASE COMBINATORIAL GENE SYNTHESIS AS A PCR-INDEPENDENT MUTAGENESIS METHOD FOR MUTANT LIBRARY CREATION 96 3.2.8 COMPUTATIONAL TOOLS AND THE ROLE OF MACHINE LEARNING (ML) IN DIRECTED EVOLUTION AND RATIONAL ENZYME DESIGN 102 VII CONTENTS 3.3 3.3.1 3.4 DIVERSE APPROACHES TO RATIONAL ENZYME DESIGN 112 INTRODUCTORY REMARKS 112 MERGING SEMI-RATIONAL DIRECTED EVOLUTION AND RATIONAL ENZYME DESIGN BY FOCUSED RATIONAL ITERATIVE SITE-SPECIFIC MUTAGENESIS (FRISM) 114 3.5 CONCLUSIONS AND PERSPECTIVES 120 REFERENCES 120 4 GUIDELINES FOR APPLYING GENE MUTAGENESIS METHODS IN ORGANIC CHEMISTRY, PHARMACEUTICAL APPLICATIONS, AND BIOTECHNOLOGY 141 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 SOME GENERAL TIPS 141 RATIONAL DESIGN 141 DIRECTED EVOLUTION 149 RARE CASES OF COMPARATIVE DIRECTED EVOLUTION STUDIES 152 CONVERTING A GALACTOSIDASE INTO A FUCOSIDASE 152 ENHANCING AND INVERTING THE ENANTIOSELECTIVITY OF THE LIPASE FROM PSEUDOMONAS AERUGINOSA (PAL) 156 4.3 CHOOSING THE BEST STRATEGY WHEN APPLYING SATURATION MUTAGENESIS 163 4.3.1 4.3.2 GENERAL GUIDELINES 163 CHOOSING OPTIMAL PATHWAYS IN ITERATIVE SATURATION MUTAGENESIS (ISM) AND ESCAPING FROM LOCAL MINIMA IN FITNESS LANDSCAPES 168 4.3.3 SYSTEMATIZATION OF SATURATION MUTAGENESIS WITH FURTHER PRACTICAL TIPS 174 4.3.4 SINGLE CODE SATURATION MUTAGENESIS (SCSM): USE OF A SINGLE AMINO ACID AS BUILDING BLOCK 183 4.3.5 TRIPLE CODE SATURATION MUTAGENESIS (TCSM): A VIABLE COMPROMISE WHEN CHOOSING OPTIMAL REDUCED AMINO ACID ALPHABETS IN CAST/ISM 185 4.4 4.5 TECHNO-ECONOMICAL ANALYSIS OF SATURATION MUTAGENESIS STRATEGIES 187 GENERATING MUTANT LIBRARIES BY COMBINATORIAL SOLID-PHASE GENE SYNTHESIS: THE FUTURE OF DIRECTED EVOLUTION? 190 4.6 FUSING DIRECTED EVOLUTION AND RATIONAL DESIGN: NEW EXAMPLES OF FOCUSED RATIONAL ITERATIVE SITE-SPECIFIC MUTAGENESIS (FRISM) 192 REFERENCES 194 5 TABLES OF SELECTED EXAMPLES OF DIRECTED EVOLUTION AND RATIONAL DESIGN OF ENZYMES WITH EMPHASIS ON STEREO AND REGIO-SELECTIVITY, SUBSTRATE SCOPE AND/OR ACTIVITY 203 5.1 INTRODUCTORY EXPLANATIONS 203 REFERENCES 220 CONTENTS VII 6 PROTEIN ENGINEERING OF ENZYME ROBUSTNESS RELEVANT TO ORGANIC AND PHARMACEUTICAL CHEMISTRY AND APPLICATIONS IN BIOTECHNOLOGY 233 6.1 6.2 INTRODUCTORY REMARKS 233 RATIONAL DESIGN OF ENZYME THERMOSTABILITY AND RESISTANCE TO HOSTILE ORGANIC SOLVENTS 234 6.3 ANCESTRAL AND CONSENSUS APPROACHES AND THEIR STRUCTURE-GUIDED EXTENSIONS 241 6.4 FURTHER COMPUTATIONALLY GUIDED METHODS FOR PROTEIN THERMOSTABILIZATION 242 6.4.1 6.4.2 6.4.3 6.4.4 6.4.5 6.5 SCHEMA APPROACH 243 FRESCO APPROACH 245 FIREPROT APPROACH 247 CONSTRAINED NETWORK ANALYSIS (CNA) APPROACH 249 ALTERNATIVE APPROACHES 251 DIRECTED EVOLUTION OF ENZYME THERMOSTABILITY AND RESISTANCE TO HOSTILE ORGANIC SOLVENTS 253 6.6 6.7 6.8 APPLICATION OF EPPCR AND DNA SHUFFLING 255 SATURATION MUTAGENESIS IN THE B-FIT APPROACH 258 ITERATIVE SATURATION MUTAGENESIS (ISM) AT PROTEIN-PROTEIN INTERFACIAL SITES FOR MULTIMERIC ENZYMES 263 6.9 CONCLUSIONS AND PERSPECTIVES 265 REFERENCES 265 7 ARTIFICIAL ENZYMES AS PROMISCUOUS CATALYSTS IN ORGANIC AND PHARMACEUTICAL CHEMISTRY 279 7.1 7.2 INTRODUCTORY BACKGROUND INFORMATION 279 APPLYING PROTEIN ENGINEERING FOR TUNING THE CATALYTIC PROFILE OF PROMISCUOUS ENZYMES 285 7.3 APPLYING PROTEIN ENGINEERING TO P450 MONOOXYGENASES FOR MANIPULATING ACTIVITY AND STEREOSELECTIVITY OF PROMISCUOUS TRANSFORMATIONS 299 7.4 CONCLUSIONS AND PERSPECTIVES 307 REFERENCES 308 8 8.1 8.2 LEARNING LESSONS FROM PROTEIN ENGINEERING 317 INTRODUCTORY REMARKS 317 ADDITIVE VERSUS NONADDITIVE MUTATIONAL EFFECTS IN FITNESS LANDSCAPES REVEALED BY PARTIAL OR COMPLETE DECONVOLUTION 318 8.3 UNEXPLORED CHIRAL FLEETING INTERMEDIATES AND THEIR ROLE IN PROTEIN ENGINEERING 327 8.4 CASE STUDIES FEATURING MECHANISTIC, STRUCTURAL, AND/OR COMPUTATIONAL ANALYSES OF THE SOURCE OF EVOLVED STEREO AND/OR REGIOSELECTIVITY 329 VIIII CONTENTS 8.4.1 8.4.2 8.4.3 8.4.4 8.4.5 ESTERASE 329 EPOXIDE HYDROLASE 331 ENE-REDUCTASE OF THE OLD YELLOW ENZYME (OYE) 335 CYTOCHROME P450 MONOOXYGENASE 343 ANALYSIS OF BAEYER-VILLIGER MONOOXYGENASE WITH CONSIDERATION OF FLEETING CHIRAL INTERMEDIATES 350 8.5 CONCLUSIONS AND SUGGESTIONS FOR FURTHER THEORETICAL WORK 358 REFERENCES 360 9 9.1 9.2 PERSPECTIVES FOR FUTURE WORK 367 INTRODUCTORY REMARKS 367 EXTENDING APPLICATIONS IN ORGANIC AND PHARMACEUTICAL CHEMISTRY 367 9.3 9.4 9.5 EXTENDING APPLICATIONS IN BIOTECHNOLOGY 372 PATENT ISSUES 376 FINAL COMMENTS 376 REFERENCES 377 INDEX 381
adam_txt	V CONTENTS PREFACE IX ABOUT THE AUTHORS XI 1 INTRODUCTION TO DIRECTED EVOLUTION AND RATIONAL DESIGN AS PROTEIN ENGINEERING TECHNIQUES 1 1.1 METHODS AND AIMS OF DIRECTED ENZYME EVOLUTION 1 1.2 HISTORY OF DIRECTED ENZYME EVOLUTION 4 1.3 METHODS AND AIMS OF RATIONAL DESIGN OF ENZYMES 19 REFERENCES 21 2 SCREENING AND SELECTION TECHNIQUES 29 2.1 INTRODUCTORY REMARKS 29 2.2 SCREENING METHODS 29 2.3 SELECTION METHODS 38 2.4 CONCLUSIONS AND PERSPECTIVES 52 REFERENCES 53 3 GENE MUTAGENESIS METHODS IN DIRECTED EVOLUTION AND RATIONAL ENZYME DESIGN 59 3.1 INTRODUCTORY REMARKS 59 3.2 DIRECTED EVOLUTION APPROACHES 59 3.2.1 MUTATOR STRAINS 59 3.2.2 ERROR-PRONE POLYMERASE CHAIN REACTION (EPPCR) 60 3.2.3 WHOLE GENE INSERTION/DELETION MUTAGENESIS 66 3.2.4 SATURATION MUTAGENESIS AS A PRIVILEGED METHOD: AWAY FROM BLIND DIRECTED EVOLUTION 73 3.2.5 DNA SHUFFLING AND RELATED RECOMBINANT GENE MUTAGENESIS METHODS 89 3.2.6 CIRCULAR MUTATION AND OTHER DOMAIN SWAPPING TECHNIQUES 94 3.2.7 SOLID-PHASE COMBINATORIAL GENE SYNTHESIS AS A PCR-INDEPENDENT MUTAGENESIS METHOD FOR MUTANT LIBRARY CREATION 96 3.2.8 COMPUTATIONAL TOOLS AND THE ROLE OF MACHINE LEARNING (ML) IN DIRECTED EVOLUTION AND RATIONAL ENZYME DESIGN 102 VII CONTENTS 3.3 3.3.1 3.4 DIVERSE APPROACHES TO RATIONAL ENZYME DESIGN 112 INTRODUCTORY REMARKS 112 MERGING SEMI-RATIONAL DIRECTED EVOLUTION AND RATIONAL ENZYME DESIGN BY FOCUSED RATIONAL ITERATIVE SITE-SPECIFIC MUTAGENESIS (FRISM) 114 3.5 CONCLUSIONS AND PERSPECTIVES 120 REFERENCES 120 4 GUIDELINES FOR APPLYING GENE MUTAGENESIS METHODS IN ORGANIC CHEMISTRY, PHARMACEUTICAL APPLICATIONS, AND BIOTECHNOLOGY 141 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 SOME GENERAL TIPS 141 RATIONAL DESIGN 141 DIRECTED EVOLUTION 149 RARE CASES OF COMPARATIVE DIRECTED EVOLUTION STUDIES 152 CONVERTING A GALACTOSIDASE INTO A FUCOSIDASE 152 ENHANCING AND INVERTING THE ENANTIOSELECTIVITY OF THE LIPASE FROM PSEUDOMONAS AERUGINOSA (PAL) 156 4.3 CHOOSING THE BEST STRATEGY WHEN APPLYING SATURATION MUTAGENESIS 163 4.3.1 4.3.2 GENERAL GUIDELINES 163 CHOOSING OPTIMAL PATHWAYS IN ITERATIVE SATURATION MUTAGENESIS (ISM) AND ESCAPING FROM LOCAL MINIMA IN FITNESS LANDSCAPES 168 4.3.3 SYSTEMATIZATION OF SATURATION MUTAGENESIS WITH FURTHER PRACTICAL TIPS 174 4.3.4 SINGLE CODE SATURATION MUTAGENESIS (SCSM): USE OF A SINGLE AMINO ACID AS BUILDING BLOCK 183 4.3.5 TRIPLE CODE SATURATION MUTAGENESIS (TCSM): A VIABLE COMPROMISE WHEN CHOOSING OPTIMAL REDUCED AMINO ACID ALPHABETS IN CAST/ISM 185 4.4 4.5 TECHNO-ECONOMICAL ANALYSIS OF SATURATION MUTAGENESIS STRATEGIES 187 GENERATING MUTANT LIBRARIES BY COMBINATORIAL SOLID-PHASE GENE SYNTHESIS: THE FUTURE OF DIRECTED EVOLUTION? 190 4.6 FUSING DIRECTED EVOLUTION AND RATIONAL DESIGN: NEW EXAMPLES OF FOCUSED RATIONAL ITERATIVE SITE-SPECIFIC MUTAGENESIS (FRISM) 192 REFERENCES 194 5 TABLES OF SELECTED EXAMPLES OF DIRECTED EVOLUTION AND RATIONAL DESIGN OF ENZYMES WITH EMPHASIS ON STEREO AND REGIO-SELECTIVITY, SUBSTRATE SCOPE AND/OR ACTIVITY 203 5.1 INTRODUCTORY EXPLANATIONS 203 REFERENCES 220 CONTENTS VII 6 PROTEIN ENGINEERING OF ENZYME ROBUSTNESS RELEVANT TO ORGANIC AND PHARMACEUTICAL CHEMISTRY AND APPLICATIONS IN BIOTECHNOLOGY 233 6.1 6.2 INTRODUCTORY REMARKS 233 RATIONAL DESIGN OF ENZYME THERMOSTABILITY AND RESISTANCE TO HOSTILE ORGANIC SOLVENTS 234 6.3 ANCESTRAL AND CONSENSUS APPROACHES AND THEIR STRUCTURE-GUIDED EXTENSIONS 241 6.4 FURTHER COMPUTATIONALLY GUIDED METHODS FOR PROTEIN THERMOSTABILIZATION 242 6.4.1 6.4.2 6.4.3 6.4.4 6.4.5 6.5 SCHEMA APPROACH 243 FRESCO APPROACH 245 FIREPROT APPROACH 247 CONSTRAINED NETWORK ANALYSIS (CNA) APPROACH 249 ALTERNATIVE APPROACHES 251 DIRECTED EVOLUTION OF ENZYME THERMOSTABILITY AND RESISTANCE TO HOSTILE ORGANIC SOLVENTS 253 6.6 6.7 6.8 APPLICATION OF EPPCR AND DNA SHUFFLING 255 SATURATION MUTAGENESIS IN THE B-FIT APPROACH 258 ITERATIVE SATURATION MUTAGENESIS (ISM) AT PROTEIN-PROTEIN INTERFACIAL SITES FOR MULTIMERIC ENZYMES 263 6.9 CONCLUSIONS AND PERSPECTIVES 265 REFERENCES 265 7 ARTIFICIAL ENZYMES AS PROMISCUOUS CATALYSTS IN ORGANIC AND PHARMACEUTICAL CHEMISTRY 279 7.1 7.2 INTRODUCTORY BACKGROUND INFORMATION 279 APPLYING PROTEIN ENGINEERING FOR TUNING THE CATALYTIC PROFILE OF PROMISCUOUS ENZYMES 285 7.3 APPLYING PROTEIN ENGINEERING TO P450 MONOOXYGENASES FOR MANIPULATING ACTIVITY AND STEREOSELECTIVITY OF PROMISCUOUS TRANSFORMATIONS 299 7.4 CONCLUSIONS AND PERSPECTIVES 307 REFERENCES 308 8 8.1 8.2 LEARNING LESSONS FROM PROTEIN ENGINEERING 317 INTRODUCTORY REMARKS 317 ADDITIVE VERSUS NONADDITIVE MUTATIONAL EFFECTS IN FITNESS LANDSCAPES REVEALED BY PARTIAL OR COMPLETE DECONVOLUTION 318 8.3 UNEXPLORED CHIRAL FLEETING INTERMEDIATES AND THEIR ROLE IN PROTEIN ENGINEERING 327 8.4 CASE STUDIES FEATURING MECHANISTIC, STRUCTURAL, AND/OR COMPUTATIONAL ANALYSES OF THE SOURCE OF EVOLVED STEREO AND/OR REGIOSELECTIVITY 329 VIIII CONTENTS 8.4.1 8.4.2 8.4.3 8.4.4 8.4.5 ESTERASE 329 EPOXIDE HYDROLASE 331 ENE-REDUCTASE OF THE OLD YELLOW ENZYME (OYE) 335 CYTOCHROME P450 MONOOXYGENASE 343 ANALYSIS OF BAEYER-VILLIGER MONOOXYGENASE WITH CONSIDERATION OF FLEETING CHIRAL INTERMEDIATES 350 8.5 CONCLUSIONS AND SUGGESTIONS FOR FURTHER THEORETICAL WORK 358 REFERENCES 360 9 9.1 9.2 PERSPECTIVES FOR FUTURE WORK 367 INTRODUCTORY REMARKS 367 EXTENDING APPLICATIONS IN ORGANIC AND PHARMACEUTICAL CHEMISTRY 367 9.3 9.4 9.5 EXTENDING APPLICATIONS IN BIOTECHNOLOGY 372 PATENT ISSUES 376 FINAL COMMENTS 376 REFERENCES 377 INDEX 381
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author	Reetz, Manfred T. 1943- Sun, Zhoutong Qu, Ge
author_GND	(DE-588)111053455 (DE-588)1299382878 (DE-588)1299383300
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ctrlnum	(OCoLC)1373391471 (DE-599)DNB1267778857
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id	DE-604.BV048809584
illustrated	Illustrated
index_date	2024-07-03T21:29:58Z
indexdate	2024-07-20T04:06:16Z
institution	BVB
institution_GND	(DE-588)16179388-5
isbn	9783527350339
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-034075545
oclc_num	1373391471
open_access_boolean
owner	DE-29T DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-11 DE-20
owner_facet	DE-29T DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-11 DE-20
physical	xii, 387 Seiten Illustrationen, Diagramme (teilweise farbig) 24.4 cm x 17 cm
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	Wiley-VCH
record_format	marc
spelling	Reetz, Manfred T. 1943- Verfasser (DE-588)111053455 aut Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science Manfred T. Reetz, Zhoutong Sun, and Ge Qu Weinheim Wiley-VCH [2023] © 2023 xii, 387 Seiten Illustrationen, Diagramme (teilweise farbig) 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Enzymkatalyse (DE-588)4152480-9 gnd rswk-swf Proteindesign (DE-588)4346801-9 gnd rswk-swf Biotechnologie i. d. Biowissenschaften Biotechnology Biowissenschaften CH81: Organische Chemie / Methoden, Synthesen, Verfahren CHB4: Proteine Chemie Chemistry LS35: Biotechnologie i. d. Biowissenschaften Life Sciences Methods - Synthesis & Techniques Organische Chemie / Methoden, Synthesen, Verfahren Protein Science Proteine Enzymkatalyse (DE-588)4152480-9 s Proteindesign (DE-588)4346801-9 s DE-604 Sun, Zhoutong Verfasser (DE-588)1299382878 aut Qu, Ge Verfasser (DE-588)1299383300 aut Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-83687-1 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-83688-8 Erscheint auch als Online-Ausgabe, oBook 978-3-527-83689-5 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35033-9/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034075545&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Reetz, Manfred T. 1943- Sun, Zhoutong Qu, Ge Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science Enzymkatalyse (DE-588)4152480-9 gnd Proteindesign (DE-588)4346801-9 gnd
subject_GND	(DE-588)4152480-9 (DE-588)4346801-9
title	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science
title_auth	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science
title_exact_search	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science
title_exact_search_txtP	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science
title_full	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science Manfred T. Reetz, Zhoutong Sun, and Ge Qu
title_fullStr	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science Manfred T. Reetz, Zhoutong Sun, and Ge Qu
title_full_unstemmed	Enzyme engineering selective catalysts for applications in biotechnology, organic chemistry, and life science Manfred T. Reetz, Zhoutong Sun, and Ge Qu
title_short	Enzyme engineering
title_sort	enzyme engineering selective catalysts for applications in biotechnology organic chemistry and life science
title_sub	selective catalysts for applications in biotechnology, organic chemistry, and life science
topic	Enzymkatalyse (DE-588)4152480-9 gnd Proteindesign (DE-588)4346801-9 gnd
topic_facet	Enzymkatalyse Proteindesign
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35033-9/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034075545&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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