Verfügbarkeit: Biopolymers for biomedical and biotechnological applications

Biopolymers for biomedical and biotechnological applications:

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Bibliographische Detailangaben
Weitere Verfasser:	Rehm, Bernd H. 1964- (HerausgeberIn), Moradali, M. Fata (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim, Germany Wiley-VCH [2021]
Schriftenreihe:	Advanced biotechnology volume 11
Schlagworte:	Biopolymere Biomedizin Biopolymers Biotechnologie Biotechnologie i. d. Biowissenschaften Biotechnologie i. d. Chemie Biotechnology Biowissenschaften Chemie Chemistry Life Sciences Polymer Science & Technology Polymerwissenschaft u. -technologie CH31: Biotechnologie i. d. Chemie LS35: Biotechnologie i. d. Biowissenschaften PY20: Biopolymere Aufsatzsammlung
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34530-4/ Inhaltsverzeichnis
Beschreibung:	x, 390 Seiten Illustrationen 24.4 cm x 17 cm
ISBN:	9783527345304 3527345302

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MARC


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653			\|a Biowissenschaften
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653			\|a Chemistry
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Datensatz im Suchindex

_version_	1804182860742000640
adam_text	V CONTENTS 1 ADVANCES IN BIOCOMPATIBILITY: A PREREQUISITE FOR BIOMEDICAL APPLICATION OF BIOPOLYMERS 1 MATTHEW R, JORGENSEN, HELIN RAAGEL, AND THORS. ROLLINS 1.1 INTRODUCTION 1 1.2 BIOCOMPATIBILITY EVALUATION OF BIOPOLYMERIC MATERIALS AND DEVICES 2 1.3 USING A RISK-BASED APPROACH TO BIOCOMPATIBILITY 4 1.3.1 CHEMISTRY OF BIOPOLYMERS AND RISK 6 1.3.2 CHEMISTRY SCREENING OF BIOPOLYMERS 7 1.4 SPECIFIC BIOLOGICAL ENDPOINT EVALUATIONS 11 1.4.1 CYTOTOXICITY 11 1.4.2 SYSTEMIC TOXICITY (ACUTE, SUBACUTE, SUBCHRONIC, AND CHRONIC) 12 1.4.3 IMPLANTATION 14 1.5 CONCLUSION 15 REFERENCES 16 2 ADVANCED MICROBIAL POLYSACCHARIDES 19 FILOMENA FREITAS, CRISTIANO A.V. TORRES, DIANA ARAUJO, INES FARINHA, JOAO R. PEREIRA, PATRICIA CONCORDIO-REIS, AND MARIA A.M, REIS 2.1 INTRODUCTION 19 2.2 FUNCTIONAL PROPERTIES AND APPLICATIONS OF MICROBIAL POLYSACCHARIDES 20 2.3 COMMERCIALLY RELEVANT MICROBIAL POLYSACCHARIDES: ESTABLISHED USES AND NOVEL/PROSPECTIVE APPLICATIONS 22 2.3.1 PULLULAN 22 2.3.2 SCLEROGLUCAN 23 2.3.3 XANTHAN GUM 23 2.3.4 DEXTRANS 24 2.3.5 CURDLAN 24 2.3.6 GELLAN GUM 24 2.3.7 LEVAN 25 2.3.8 HYALURONIC ACID 25 2.4 HYDROGELS BASED ON MICROBIAL POLYSACCHARIDES 25 2.5 BIONANOCOMPOSITES BASED ON MICROBIAL POLYSACCHARIDES 29 VI J CONTENTS 2.6 BIOACTIVE POLYSACCHARIDES FROM MICROALGAE: AN EMERGING AREA 32 2.6.1 POLYSACCHARIDE-PRODUCING MICROALGAE 33 2.6.2 BIOLOGICAL ACTIVITY AND POTENTIAL APPLICATIONS 33 2.6.2.1 ANTIVIRAL ACTIVITY 36 2.6.2.2 IMMUNOMODULATORY, ANTI-INFLAMMATORY, AND ANTICANCER ACTIVITIES 36 2.6.2.3 ANTICOAGULANT AND ANTITHROMBOTIC ACTIVITY 38 2.6.2.4 ANTIOXIDANT ACTIVITY 38 2.6.2.5 OTHER BIOLOGICAL PROPERTIES 39 2.6.3 COMMERCIALIZATION PROSPECTS 39 2.7 APPLICATIONS OF CHITINOUS POLYMERS 40 2.7.1 CHITIN, CHITOSAN, AND CHITINOUS POLYSACCHARIDES 40 2.7.2 PROPERTIES OF CHITINOUS POLYSACCHARIDES 41 2.7.3 APPLICATIONS OF CHITINOUS POLYSACCHARIDES 41 2.7.3.1 BIOMEDICAL APPLICATIONS 42 2.7.3.2 PHARMACEUTICAL APPLICATIONS 43 2.7.3.3 FOOD APPLICATIONS 43 2.7.3 A OTHER APPLICATIONS 43 2.8 MICROBIAL POLYSACCHARIDES: A WORLD OF OPPORTUNITIES 44 ACKNOWLEDGMENTS 45 REFERENCES 45 3 MICROBIAL CELL FACTORIES FOR BIOMANUFACTURING OF POLYSACCHARIDES 63 M. FATA MORADALI AND BERND H.A. REHM 3.1 INTRODUCTION 63 3.2 PROMINENT MICROBIAL POLYSACCHARIDES AND THEIR PROPERTIES AND APPLICATIONS 63 3.2.1 XANTHAN AND ACETAN 64 3.2.2 SUCCINOGLYCAN AND GALACTOGLUCAN 64 3.2.3 SPHINGAN POLYSACCHARIDES 66 3.2.4 PULLULAN 66 3.2.5 CELLULOSE AND CURDLAN 67 3.2.6 ALGINATES 67 3.2.7 HYALURONIC ACID OR HYALURONATE 68 3.2.8 DEXTRANS 68 3.2.9 LEVAN AND INULIN 69 3.3 BIOSYNTHESIS PATHWAYS OF BACTERIAL POLYSACCHARIDES 69 3.3.1 GENETIC BACKGROUND REQUIRED FOR BIOSYNTHESIS OF POLYSACCHARIDES IN BACTERIA 70 3.3.2 PRODUCTION OF ACTIVE PRECURSOR, POLYMERIZATION, AND POLYSACCHARIDE MODIFICATIONS 71 3.3.3 REGULATORY PATHWAYS AND POSTTRANSLATIONAL MODIFICATIONS 72 3.4 STRATEGIES FOR ENGINEERING CELL FACTORIES 76 3.4.1 ENHANCEMENT OF PRODUCTIVITY UPON THE ENERGETIC STATE OF THE CELL AND METABOLITES 77 3.4.2 GENETIC AND METABOLIC ENGINEERING OF CELL FACTORIES 78 CONTENTS \| VII 3.4.3 STRATEGIES FOR OPTIMIZING PHYSICOCHEMICAL PROPERTIES OF POLYSACCHARIDES 79 3.4.4 RECOMBINANT PRODUCTION OF POLYSACCHARIDES AND TAILOR-MADE PRODUCTS 83 3.5 CONCLUSION AND FUTURE PERSPECTIVE 86 ACKNOWLEDGMENTS 87 REFERENCES 87 4 EXPLOITATION OF EXOPOLYSACCHARIDES FROM LACTIC ACID BACTERIA 103 TSUDA HARUTOSHI 4.1 INTRODUCTION 103 4.1.1 LACTIC ACID BACTERIA 103 4.1.2 EXOPOLYSACCHARIDES 103 4.1.3 IMPORTANCE OF PS PRODUCED BY LAB 105 4.2 HOMO-PS 105 4.2.1 BIOSYNTHESIS 105 4.2.2 COMPOSITION AND STRUCTURE 106 4.2.3 INSTABILITY OF HOMO-PS PRODUCTION 106 4.3 HETERO-PS 111 4.3.1 BIOSYNTHESIS 111 4.3.2 MONOSACCHARIDES COMPOSITION OF HETERO-PS 111 4.3.3 YIELD OF HETERO-PS 112 4.3.4 INSTABILITY OF HETERO-PS PRODUCTION 116 4.4 PREBIOTIC ACTIVITY 117 4.4.1 COMMERCIAL PREBIOTIC OLIGOSACCHARIDES 117 4.4.2 PREBIOTIC POLYSACCHARIDES 118 4.4.3 PREBIOTICS IN JAPANESE FOSHU 119 4.4.4 PREBIOTICS PRODUCED BY LAB 119 4.5 CONCLUSION 120 REFERENCES 120 5 NANOCELLULOSE: A NEW BIOPOLYMER FOR BIOMEDICAL APPLICATION 129 HIPPOLYTE DURAND, MEGAN SMYTH, AND JULIEN BRAS 5.1 TRENDS OF BIOBASED POLYMERS IN BIOMEDICAL APPLICATION 129 5.1.1 INTRODUCTION TO BIOMEDICAL ENGINEERING 130 5.1.2 OVERVIEW OF BIOBASED MATERIALS FOR BIOMEDICAL APPLICATIONS 132 5.1.2.1 BIOMATERIALS: A DEFINITION 132 5.1.2.2 BIOBASED POLYMERS 135 5.1.2.3 CELLULOSE AS A BIOMATERIAL 138 5.2 NANOCELLULOSE: PRODUCTION, CHARACTERIZATION, APPLICATION, AND COMMERCIAL ASPECTS 142 5.2.1 ISOLATION AND CHARACTERIZATION OF NANOCELLULOSE MATERIALS 143 5.2.1.1 CELLULOSE NANOCRYSTALS 144 5.2.1.2 CELLULOSE NANOFIBRILS 145 VIII I CONTENTS 5.2.1.3 BACTERIAL NANOCELLULOSE (BNC) 149 5.2.2 CHARACTERIZATION OF CELLULOSIC NANOMATERIALS (CNMS) 151 5.2.3 INDUSTRIALIZATION OF NANOCELLULOSE: FIRST AND UPCOMING APPLICATIONS 153 5.2.4 HEALTH AND TOXICOLOGY: A CONCERN FOR CNM DEVELOPMENT IN BIOMEDICAL FIELD 154 5.2.5 CELLULOSE NANOFIBRILS AND MEDICAL APPLICATIONS 164 5.3 CONCLUSIONS AND PERSPECTIVES 170 REFERENCES 170 6 ADVANCES IN MUCIN BIOPOLYMER RESEARCH: PURIFICATION, CHARACTERIZATION, AND APPLICATIONS 181 MATTHIAS MARCZYNSKI, BENJAMIN WINKELJANN, AND OLIVER LIELEG 6.1 INTRODUCTION 181 6.2 MUCIN SOURCES AND PURIFICATION PROCESS 182 6.3 STRUCTURE-FUNCTION RELATION OF MUCINS 185 6.4 CHARACTERIZING MUCINS AND MUCIN-BASED MATERIALS 187 6.5 BIOMEDICAL APPLICATIONS OF PURIFIED MUCINS 190 6.5.1 EYE DROPS OR CONTACT LENS COATINGS 190 6.5.2 MOUTH SPRAYS 192 6.5.3 ARTIFICIAL JOINT FLUIDS 192 6.5.4 COATINGS OF MEDICAL DEVICES 193 6.5.5 COMPONENTS OF HYDROGELS FOR DRUG DELIVERY 194 6.5.6 MOLECULAR STANDARDS FOR LAB TESTS WITH CLINICAL MUCUS SAMPLES 194 6.6 OUTLOOK; ENGINEERED MUCINS AND MUCIN-MIMETIC POLYMERS 194 ACKNOWLEDGMENTS 195 REFERENCES 195 7 ADVANCES IN THE SYNTHESIS OF FIBROUS PROTEINS AND THEIR APPLICATIONS 209 GANG WEI, XI MA, YARU BAI, COUCONG GONG, AND YANTU ZHANG 7.1 INTRODUCTION 209 7.2 SYNTHESIS, STRUCTURE, AND CHARACTERIZATIONS OF FIBROUS PROTEIN MATERIALS 210 7.2.1 SYNTHESIS METHODS 210 7.2.2 STRUCTURE 212 7.2.3 CHARACTERIZATIONS 213 7.3 APPLICATIONS OF FIBROUS PROTEIN MATERIALS 213 7.3.1 BONE TISSUE ENGINEERING 213 7.3.2 BIOMEDICAL ENGINEERING 215 7.3.3 SENSORS AND BIOSENSORS 216 7.3.4 NANODEVICES 217 7.3.5 ENERGY APPLICATION 218 7.3.6 ENVIRONMENTAL APPLICATION 220 7.4 CONCLUSIONS 223 ACKNOWLEDGMENTS 224 REFERENCES 224 CONTENTS IX 8 MICROBIAL POLYHYDROXYALKANOATES (PHAS): FROM SYNTHETIC BIOLOGY TO INDUSTRIALIZATION 231 YUKI MIYAHARA, AYAKA HI ROE, SHUNSUKE SATO, TAKEHARU TSUGE, AND SEIICHI TAGUCHI 8.1 INTRODUCTION 231 8.2 SYNTHETIC BIOLOGY FOR PRODUCTION OF KANEKA PHBH 233 8.2.1 ISOLATION OF BACTERIUM PRODUCING POLY(3-HYDROXYBUTYRATE-CO-3-HYDROXYHEXANOATE) 233 8.2.2 MATERIAL PROPERTIES OF PHBH 234 8.2.3 INDUSTRIAL PHBH PRODUCTION PROCESS 235 8.2.4 MOLECULAR BREEDING OF PHBH-PRODUCING BACTERIA 236 8.2.5 PRECISE CONTROL OF 3HHX FRACTION BY GENETIC MODIFICATION OF RALSTONIA EUTROPHA 238 8.2.6 BUSINESS PLAN FOR KANEKA PHBH INDUSTRIALIZATION 239 8.3 SYNTHETIC BIOLOGY FOR PRODUCTION OF MEDIUM-CHAIN-LENGTH PHAS WITH HOMOGENEOUS SIDE-CHAIN LENGTHS (HOMO-PHAS) 240 8.3.1 COPOLYMERS BASED ON MEDIUM-CHAIN-LENGTH PHA MONOMERIC CONSTITUENTS 240 8.3.2 PATHWAY ENGINEERING FOR HOMO-PHA PRODUCTION 242 8.3.3 IMPROVED MICROBIAL PRODUCTION OF HOMO-PHAS 243 8.3.4 MATERIAL PROPERTIES OF HOMO-PHAS 245 8.3.5 INTEGRATED PRODUCTION PROCESS OF HOMO-PHAS FROM RENEWABLE FEEDSTOCK 246 8.4 SYNTHETIC BIOLOGY FOR PRODUCTION OF LACTATE-BASED POLYMERS 247 8.4.1 CREATION OF LACTATE-POLYMERIZING ENZYME (LPE) 247 8.4.2 BIOSYNTHESIS OF LACTATE-BASED POLYMERS 249 8.4.3 INTEGRATED PRODUCTION PROCESS OF LACTATE-BASED POLYMERS FROM RENEWABLE FEEDSTOCK 251 8.4.4 BIOSYNTHESIZED LACTATE-BASED POLYMER SHOWS SUPERIOR PROPERTIES 253 8.5 OUTLOOK 254 REFERENCES 255 9 NATURAL AND SYNTHETIC BIOPOLYMERS IN DRUG DELIVERY AND TISSUE ENGINEERING 265 JOHN D. SCHNEIBLE, MICHAEL A. DANIELE, AND STEFANO MENEGATTI 9.1 INTRODUCTION 265 9.2 SYNTHETIC AND NATURAL SUBSTRATES 267 9.3 APPLICATIONS OF NATURAL AND SYNTHETIC POLYPEPTIDES 267 9.3.1 DRUG DELIVERY VEHICLES 267 9.3.2 TARGETING AGENTS 273 9.3.3 CELL-PERMEATING PEPTIDES 274 9.3.4 PEPTIDES IN TISSUE ENGINEERING AND REGENERATIVE MEDICINE 276 9.4 APPLICATIONS OF POLYSACCHARIDES 280 9.4.1 DRUG DELIVERY 280 9.4.2 TISSUE ENGINEERING AND REGENERATIVE MEDICINE 284 9.5 CONCLUSIONS AND FUTURE OUTLOOK 290 REFERENCES 290 CONTENTS 10 BIOPOLYMERS IN REGENERATIVE MEDICINE: OVERVIEW, CURRENT ADVANCES, AND FUTURE TRENDS 357 MICHAEL R. BEHRENS AND WARREN C RUDER 10.1 INTRODUCTION 357 10.2 BIOPOLYMER SCAFFOLD ASSEMBLY 358 10.2.1 HYDROGEL BIOPOLYMER SCAFFOLDS 358 10.2.2 ELECTROSPINNING OF BIOPOLYMER SCAFFOLDS 360 10.2.3 THREE-DIMENSIONAL PRINTING OF BIOPOLYMER SCAFFOLDS 362 10.3 ORGAN SYSTEM SPECIFIC BIOPOLYMER SCAFFOLDS 367 10.3.1 BIOPOLYMERS FOR MUSCULOSKELETAL SYSTEM REGENERATION 368 10.3.1.1 BIOPOLYMERS FOR BONE REGENERATION 368 10.3.1.2 BIOPOLYMERS FOR CARTILAGE REGENERATION 370 10.3.1.3 BIOPOLYMERS FOR LIGAMENT AND TENDON REGENERATION 371 10.3.2 BIOPOLYMERS FOR CARDIOVASCULAR SYSTEM REGENERATION 372 10.3.2.1 BIOPOLYMERS FOR VASCULAR REGENERATION 373 10.3.2.2 BIOPOLYMERS FOR CARDIAC REGENERATION 374 10.4 SUMMARY AND OUTLOOK 376 REFERENCES 377 INDEX 381
adam_txt	V CONTENTS 1 ADVANCES IN BIOCOMPATIBILITY: A PREREQUISITE FOR BIOMEDICAL APPLICATION OF BIOPOLYMERS 1 MATTHEW R, JORGENSEN, HELIN RAAGEL, AND THORS. ROLLINS 1.1 INTRODUCTION 1 1.2 BIOCOMPATIBILITY EVALUATION OF BIOPOLYMERIC MATERIALS AND DEVICES 2 1.3 USING A RISK-BASED APPROACH TO BIOCOMPATIBILITY 4 1.3.1 CHEMISTRY OF BIOPOLYMERS AND RISK 6 1.3.2 CHEMISTRY SCREENING OF BIOPOLYMERS 7 1.4 SPECIFIC BIOLOGICAL ENDPOINT EVALUATIONS 11 1.4.1 CYTOTOXICITY 11 1.4.2 SYSTEMIC TOXICITY (ACUTE, SUBACUTE, SUBCHRONIC, AND CHRONIC) 12 1.4.3 IMPLANTATION 14 1.5 CONCLUSION 15 REFERENCES 16 2 ADVANCED MICROBIAL POLYSACCHARIDES 19 FILOMENA FREITAS, CRISTIANO A.V. TORRES, DIANA ARAUJO, INES FARINHA, JOAO R. PEREIRA, PATRICIA CONCORDIO-REIS, AND MARIA A.M, REIS 2.1 INTRODUCTION 19 2.2 FUNCTIONAL PROPERTIES AND APPLICATIONS OF MICROBIAL POLYSACCHARIDES 20 2.3 COMMERCIALLY RELEVANT MICROBIAL POLYSACCHARIDES: ESTABLISHED USES AND NOVEL/PROSPECTIVE APPLICATIONS 22 2.3.1 PULLULAN 22 2.3.2 SCLEROGLUCAN 23 2.3.3 XANTHAN GUM 23 2.3.4 DEXTRANS 24 2.3.5 CURDLAN 24 2.3.6 GELLAN GUM 24 2.3.7 LEVAN 25 2.3.8 HYALURONIC ACID 25 2.4 HYDROGELS BASED ON MICROBIAL POLYSACCHARIDES 25 2.5 BIONANOCOMPOSITES BASED ON MICROBIAL POLYSACCHARIDES 29 VI J CONTENTS 2.6 BIOACTIVE POLYSACCHARIDES FROM MICROALGAE: AN EMERGING AREA 32 2.6.1 POLYSACCHARIDE-PRODUCING MICROALGAE 33 2.6.2 BIOLOGICAL ACTIVITY AND POTENTIAL APPLICATIONS 33 2.6.2.1 ANTIVIRAL ACTIVITY 36 2.6.2.2 IMMUNOMODULATORY, ANTI-INFLAMMATORY, AND ANTICANCER ACTIVITIES 36 2.6.2.3 ANTICOAGULANT AND ANTITHROMBOTIC ACTIVITY 38 2.6.2.4 ANTIOXIDANT ACTIVITY 38 2.6.2.5 OTHER BIOLOGICAL PROPERTIES 39 2.6.3 COMMERCIALIZATION PROSPECTS 39 2.7 APPLICATIONS OF CHITINOUS POLYMERS 40 2.7.1 CHITIN, CHITOSAN, AND CHITINOUS POLYSACCHARIDES 40 2.7.2 PROPERTIES OF CHITINOUS POLYSACCHARIDES 41 2.7.3 APPLICATIONS OF CHITINOUS POLYSACCHARIDES 41 2.7.3.1 BIOMEDICAL APPLICATIONS 42 2.7.3.2 PHARMACEUTICAL APPLICATIONS 43 2.7.3.3 FOOD APPLICATIONS 43 2.7.3 A OTHER APPLICATIONS 43 2.8 MICROBIAL POLYSACCHARIDES: A WORLD OF OPPORTUNITIES 44 ACKNOWLEDGMENTS 45 REFERENCES 45 3 MICROBIAL CELL FACTORIES FOR BIOMANUFACTURING OF POLYSACCHARIDES 63 M. FATA MORADALI AND BERND H.A. REHM 3.1 INTRODUCTION 63 3.2 PROMINENT MICROBIAL POLYSACCHARIDES AND THEIR PROPERTIES AND APPLICATIONS 63 3.2.1 XANTHAN AND ACETAN 64 3.2.2 SUCCINOGLYCAN AND GALACTOGLUCAN 64 3.2.3 SPHINGAN POLYSACCHARIDES 66 3.2.4 PULLULAN 66 3.2.5 CELLULOSE AND CURDLAN 67 3.2.6 ALGINATES 67 3.2.7 HYALURONIC ACID OR HYALURONATE 68 3.2.8 DEXTRANS 68 3.2.9 LEVAN AND INULIN 69 3.3 BIOSYNTHESIS PATHWAYS OF BACTERIAL POLYSACCHARIDES 69 3.3.1 GENETIC BACKGROUND REQUIRED FOR BIOSYNTHESIS OF POLYSACCHARIDES IN BACTERIA 70 3.3.2 PRODUCTION OF ACTIVE PRECURSOR, POLYMERIZATION, AND POLYSACCHARIDE MODIFICATIONS 71 3.3.3 REGULATORY PATHWAYS AND POSTTRANSLATIONAL MODIFICATIONS 72 3.4 STRATEGIES FOR ENGINEERING CELL FACTORIES 76 3.4.1 ENHANCEMENT OF PRODUCTIVITY UPON THE ENERGETIC STATE OF THE CELL AND METABOLITES 77 3.4.2 GENETIC AND METABOLIC ENGINEERING OF CELL FACTORIES 78 CONTENTS \| VII 3.4.3 STRATEGIES FOR OPTIMIZING PHYSICOCHEMICAL PROPERTIES OF POLYSACCHARIDES 79 3.4.4 RECOMBINANT PRODUCTION OF POLYSACCHARIDES AND TAILOR-MADE PRODUCTS 83 3.5 CONCLUSION AND FUTURE PERSPECTIVE 86 ACKNOWLEDGMENTS 87 REFERENCES 87 4 EXPLOITATION OF EXOPOLYSACCHARIDES FROM LACTIC ACID BACTERIA 103 TSUDA HARUTOSHI 4.1 INTRODUCTION 103 4.1.1 LACTIC ACID BACTERIA 103 4.1.2 EXOPOLYSACCHARIDES 103 4.1.3 IMPORTANCE OF PS PRODUCED BY LAB 105 4.2 HOMO-PS 105 4.2.1 BIOSYNTHESIS 105 4.2.2 COMPOSITION AND STRUCTURE 106 4.2.3 INSTABILITY OF HOMO-PS PRODUCTION 106 4.3 HETERO-PS 111 4.3.1 BIOSYNTHESIS 111 4.3.2 MONOSACCHARIDES COMPOSITION OF HETERO-PS 111 4.3.3 YIELD OF HETERO-PS 112 4.3.4 INSTABILITY OF HETERO-PS PRODUCTION 116 4.4 PREBIOTIC ACTIVITY 117 4.4.1 COMMERCIAL PREBIOTIC OLIGOSACCHARIDES 117 4.4.2 PREBIOTIC POLYSACCHARIDES 118 4.4.3 PREBIOTICS IN JAPANESE FOSHU 119 4.4.4 PREBIOTICS PRODUCED BY LAB 119 4.5 CONCLUSION 120 REFERENCES 120 5 NANOCELLULOSE: A NEW BIOPOLYMER FOR BIOMEDICAL APPLICATION 129 HIPPOLYTE DURAND, MEGAN SMYTH, AND JULIEN BRAS 5.1 TRENDS OF BIOBASED POLYMERS IN BIOMEDICAL APPLICATION 129 5.1.1 INTRODUCTION TO BIOMEDICAL ENGINEERING 130 5.1.2 OVERVIEW OF BIOBASED MATERIALS FOR BIOMEDICAL APPLICATIONS 132 5.1.2.1 BIOMATERIALS: A DEFINITION 132 5.1.2.2 BIOBASED POLYMERS 135 5.1.2.3 CELLULOSE AS A BIOMATERIAL 138 5.2 NANOCELLULOSE: PRODUCTION, CHARACTERIZATION, APPLICATION, AND COMMERCIAL ASPECTS 142 5.2.1 ISOLATION AND CHARACTERIZATION OF NANOCELLULOSE MATERIALS 143 5.2.1.1 CELLULOSE NANOCRYSTALS 144 5.2.1.2 CELLULOSE NANOFIBRILS 145 VIII I CONTENTS 5.2.1.3 BACTERIAL NANOCELLULOSE (BNC) 149 5.2.2 CHARACTERIZATION OF CELLULOSIC NANOMATERIALS (CNMS) 151 5.2.3 INDUSTRIALIZATION OF NANOCELLULOSE: FIRST AND UPCOMING APPLICATIONS 153 5.2.4 HEALTH AND TOXICOLOGY: A CONCERN FOR CNM DEVELOPMENT IN BIOMEDICAL FIELD 154 5.2.5 CELLULOSE NANOFIBRILS AND MEDICAL APPLICATIONS 164 5.3 CONCLUSIONS AND PERSPECTIVES 170 REFERENCES 170 6 ADVANCES IN MUCIN BIOPOLYMER RESEARCH: PURIFICATION, CHARACTERIZATION, AND APPLICATIONS 181 MATTHIAS MARCZYNSKI, BENJAMIN WINKELJANN, AND OLIVER LIELEG 6.1 INTRODUCTION 181 6.2 MUCIN SOURCES AND PURIFICATION PROCESS 182 6.3 STRUCTURE-FUNCTION RELATION OF MUCINS 185 6.4 CHARACTERIZING MUCINS AND MUCIN-BASED MATERIALS 187 6.5 BIOMEDICAL APPLICATIONS OF PURIFIED MUCINS 190 6.5.1 EYE DROPS OR CONTACT LENS COATINGS 190 6.5.2 MOUTH SPRAYS 192 6.5.3 ARTIFICIAL JOINT FLUIDS 192 6.5.4 COATINGS OF MEDICAL DEVICES 193 6.5.5 COMPONENTS OF HYDROGELS FOR DRUG DELIVERY 194 6.5.6 MOLECULAR STANDARDS FOR LAB TESTS WITH CLINICAL MUCUS SAMPLES 194 6.6 OUTLOOK; ENGINEERED MUCINS AND MUCIN-MIMETIC POLYMERS 194 ACKNOWLEDGMENTS 195 REFERENCES 195 7 ADVANCES IN THE SYNTHESIS OF FIBROUS PROTEINS AND THEIR APPLICATIONS 209 GANG WEI, XI MA, YARU BAI, COUCONG GONG, AND YANTU ZHANG 7.1 INTRODUCTION 209 7.2 SYNTHESIS, STRUCTURE, AND CHARACTERIZATIONS OF FIBROUS PROTEIN MATERIALS 210 7.2.1 SYNTHESIS METHODS 210 7.2.2 STRUCTURE 212 7.2.3 CHARACTERIZATIONS 213 7.3 APPLICATIONS OF FIBROUS PROTEIN MATERIALS 213 7.3.1 BONE TISSUE ENGINEERING 213 7.3.2 BIOMEDICAL ENGINEERING 215 7.3.3 SENSORS AND BIOSENSORS 216 7.3.4 NANODEVICES 217 7.3.5 ENERGY APPLICATION 218 7.3.6 ENVIRONMENTAL APPLICATION 220 7.4 CONCLUSIONS 223 ACKNOWLEDGMENTS 224 REFERENCES 224 CONTENTS IX 8 MICROBIAL POLYHYDROXYALKANOATES (PHAS): FROM SYNTHETIC BIOLOGY TO INDUSTRIALIZATION 231 YUKI MIYAHARA, AYAKA HI ROE, SHUNSUKE SATO, TAKEHARU TSUGE, AND SEIICHI TAGUCHI 8.1 INTRODUCTION 231 8.2 SYNTHETIC BIOLOGY FOR PRODUCTION OF KANEKA PHBH 233 8.2.1 ISOLATION OF BACTERIUM PRODUCING POLY(3-HYDROXYBUTYRATE-CO-3-HYDROXYHEXANOATE) 233 8.2.2 MATERIAL PROPERTIES OF PHBH 234 8.2.3 INDUSTRIAL PHBH PRODUCTION PROCESS 235 8.2.4 MOLECULAR BREEDING OF PHBH-PRODUCING BACTERIA 236 8.2.5 PRECISE CONTROL OF 3HHX FRACTION BY GENETIC MODIFICATION OF RALSTONIA EUTROPHA 238 8.2.6 BUSINESS PLAN FOR KANEKA PHBH INDUSTRIALIZATION 239 8.3 SYNTHETIC BIOLOGY FOR PRODUCTION OF MEDIUM-CHAIN-LENGTH PHAS WITH HOMOGENEOUS SIDE-CHAIN LENGTHS (HOMO-PHAS) 240 8.3.1 COPOLYMERS BASED ON MEDIUM-CHAIN-LENGTH PHA MONOMERIC CONSTITUENTS 240 8.3.2 PATHWAY ENGINEERING FOR HOMO-PHA PRODUCTION 242 8.3.3 IMPROVED MICROBIAL PRODUCTION OF HOMO-PHAS 243 8.3.4 MATERIAL PROPERTIES OF HOMO-PHAS 245 8.3.5 INTEGRATED PRODUCTION PROCESS OF HOMO-PHAS FROM RENEWABLE FEEDSTOCK 246 8.4 SYNTHETIC BIOLOGY FOR PRODUCTION OF LACTATE-BASED POLYMERS 247 8.4.1 CREATION OF LACTATE-POLYMERIZING ENZYME (LPE) 247 8.4.2 BIOSYNTHESIS OF LACTATE-BASED POLYMERS 249 8.4.3 INTEGRATED PRODUCTION PROCESS OF LACTATE-BASED POLYMERS FROM RENEWABLE FEEDSTOCK 251 8.4.4 BIOSYNTHESIZED LACTATE-BASED POLYMER SHOWS SUPERIOR PROPERTIES 253 8.5 OUTLOOK 254 REFERENCES 255 9 NATURAL AND SYNTHETIC BIOPOLYMERS IN DRUG DELIVERY AND TISSUE ENGINEERING 265 JOHN D. SCHNEIBLE, MICHAEL A. DANIELE, AND STEFANO MENEGATTI 9.1 INTRODUCTION 265 9.2 SYNTHETIC AND NATURAL SUBSTRATES 267 9.3 APPLICATIONS OF NATURAL AND SYNTHETIC POLYPEPTIDES 267 9.3.1 DRUG DELIVERY VEHICLES 267 9.3.2 TARGETING AGENTS 273 9.3.3 CELL-PERMEATING PEPTIDES 274 9.3.4 PEPTIDES IN TISSUE ENGINEERING AND REGENERATIVE MEDICINE 276 9.4 APPLICATIONS OF POLYSACCHARIDES 280 9.4.1 DRUG DELIVERY 280 9.4.2 TISSUE ENGINEERING AND REGENERATIVE MEDICINE 284 9.5 CONCLUSIONS AND FUTURE OUTLOOK 290 REFERENCES 290 CONTENTS 10 BIOPOLYMERS IN REGENERATIVE MEDICINE: OVERVIEW, CURRENT ADVANCES, AND FUTURE TRENDS 357 MICHAEL R. BEHRENS AND WARREN C RUDER 10.1 INTRODUCTION 357 10.2 BIOPOLYMER SCAFFOLD ASSEMBLY 358 10.2.1 HYDROGEL BIOPOLYMER SCAFFOLDS 358 10.2.2 ELECTROSPINNING OF BIOPOLYMER SCAFFOLDS 360 10.2.3 THREE-DIMENSIONAL PRINTING OF BIOPOLYMER SCAFFOLDS 362 10.3 ORGAN SYSTEM SPECIFIC BIOPOLYMER SCAFFOLDS 367 10.3.1 BIOPOLYMERS FOR MUSCULOSKELETAL SYSTEM REGENERATION 368 10.3.1.1 BIOPOLYMERS FOR BONE REGENERATION 368 10.3.1.2 BIOPOLYMERS FOR CARTILAGE REGENERATION 370 10.3.1.3 BIOPOLYMERS FOR LIGAMENT AND TENDON REGENERATION 371 10.3.2 BIOPOLYMERS FOR CARDIOVASCULAR SYSTEM REGENERATION 372 10.3.2.1 BIOPOLYMERS FOR VASCULAR REGENERATION 373 10.3.2.2 BIOPOLYMERS FOR CARDIAC REGENERATION 374 10.4 SUMMARY AND OUTLOOK 376 REFERENCES 377 INDEX 381
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spelling	Biopolymers for biomedical and biotechnological applications edited by Bern H.A. Rehm, M. Fata Moradali Weinheim, Germany Wiley-VCH [2021] x, 390 Seiten Illustrationen 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Advanced biotechnology volume 11 Biopolymere (DE-588)4006893-6 gnd rswk-swf Biomedizin Biopolymere Biopolymers Biotechnologie Biotechnologie i. d. Biowissenschaften Biotechnologie i. d. Chemie Biotechnology Biowissenschaften Chemie Chemistry Life Sciences Polymer Science & Technology Polymerwissenschaft u. -technologie CH31: Biotechnologie i. d. Chemie LS35: Biotechnologie i. d. Biowissenschaften PY20: Biopolymere (DE-588)4143413-4 Aufsatzsammlung gnd-content Biopolymere (DE-588)4006893-6 s DE-604 Rehm, Bernd H. 1964- (DE-588)172630266 edt Moradali, M. Fata (DE-588)1235157466 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-81828-0 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-81830-3 Erscheint auch als Online-Ausgabe 978-3-527-81831-0 Advanced biotechnology volume 11 (DE-604)BV043302234 11 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34530-4/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032920011&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Biopolymers for biomedical and biotechnological applications Advanced biotechnology Biopolymere (DE-588)4006893-6 gnd
subject_GND	(DE-588)4006893-6 (DE-588)4143413-4
title	Biopolymers for biomedical and biotechnological applications
title_auth	Biopolymers for biomedical and biotechnological applications
title_exact_search	Biopolymers for biomedical and biotechnological applications
title_exact_search_txtP	Biopolymers for biomedical and biotechnological applications
title_full	Biopolymers for biomedical and biotechnological applications edited by Bern H.A. Rehm, M. Fata Moradali
title_fullStr	Biopolymers for biomedical and biotechnological applications edited by Bern H.A. Rehm, M. Fata Moradali
title_full_unstemmed	Biopolymers for biomedical and biotechnological applications edited by Bern H.A. Rehm, M. Fata Moradali
title_short	Biopolymers for biomedical and biotechnological applications
title_sort	biopolymers for biomedical and biotechnological applications
topic	Biopolymere (DE-588)4006893-6 gnd
topic_facet	Biopolymere Aufsatzsammlung
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34530-4/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032920011&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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