Marine microbiology bioactive compounds and biotechnological applications

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Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH-Verl. 2013
Schlagworte:	Bioaktive Verbindungen Meeresmikrobiologie Industrielle Mikrobiologie
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adam_text	IMAGE 1 CONTENTS PREFACE X I X BIOGRAPHY X X I LIST OF CONTRIBUTORS X X I I I 1 INTRODUCTION TO MARINE ACTINOBACTERIA 1 PANCHANATHAN MANIVASAGAN, JAYACHANDRAN VENKATESAN, AND SE-KWON KIM 1.1 INTRODUCTION 1 1.2 ACTINOBACTERIA 2 1.3 ORIGIN AND DISTRIBUTION OF MARINE ACTINOBACTERIA 2 1.4 ISOLATION AND IDENTIFICATION OF MARINE ACTINOBACTERIA 3 1.5 INDIGENOUS MARINE ACTINOBACTERIA 4 1.$ ROLE OF ACTINOBACTERIA IN THE MARINE ENVIRONMENT 5 1.7 IMPORTANCE OF MARINE ACTINOBACTERIA 5 1.7.1 ANTIBIOTICS 5 1.7.2 MELANINS 6 1.7.3 ENZYMES 6 1.7.3.1 A-AMYLASE 6 1.7.3.2 PROTEASES 7 1.7.3.3 CELLULASES 7 1.7.3.4 CHITINASE 8 1.7.3.5 KERATINASE 8 1.7.3.6 XYLANASES 9 1.7.4 ENZYME INHIBITORS 9 1.7.5 ANTICANCER COMPOUNDS 9 1.8 SYMBIOSES 10 1.9 BIOINFORMATICS 11 1.10 CONCLUSIONS 11 REFERENCES 12 HTTP://D-NB.INFO/1029120641 IMAGE 2 V I I CONTENTS 2 TREASURE HUNTING FOR USEFUL MICROORGANISMS IN THE MARINE ENVIRONMENT 21 CHIAKI IMADA 2.1 INTRODUCTION 21 2.2 MICROORGANISMS LIVING IN THE MARINE ENVIRONMENT 21 2.2.1 PROTEASE INHIBITOR PRODUCED BY MARINE BACTERIUM 21 2.2.2 CHITINASE INHIBITOR PRODUCED BY MARINE BACTERIUM 22 2.2.3 ANTIBIOTICS PRODUCED BY MARINE BACTERIA 23 2.2.4 ANTIBIOTICS PRODUCED BY MARINE ACTINOMYCETES 24 2.2.5 ANTIBIOTIC PRODUCED BY MARINE FUNGI 25 2.2.6 TYROSINASE INHIBITOR PRODUCED BY MARINE FUNGI 26 2.3 MICROORGANISMS LIVING IN DEEP SEA WATER 26 2.3.1 ISOLATION AND INCUBATION OF LACTIC ACID BACTERIA FROM DEEP SEA WATER 28 REFERENCES 30 3 STRATEGY OF MARINE VIRUSES IN GLOBAL ECOSYSTEM 33 AMARDEEP SINGH, MANOJ TRIVEDI, PRANJAL CHANDRA, AND RAJENDRA N. COYAL 3.1 INTRODUCTION 33 3.2 REPRODUCTIVE STRATEGIES OF VIRUSES 33 3.2.1 LYTIC INFECTION 34 3.2.2 CHRONIC INFECTION 34 3.2.3 LYSOGENY INFECTION 34 3.3 ABUNDANCE OF MARINE VIRUSES 35 3.4 VIRAL ACTIVITIES IN ECOSYSTEMS 36 3.4.1 DIVERSITY REGULATION 36 3.4.2 RATE OF RESISTANCE 37 3.4.3 LYSOGENY 39 3.4.4 THE EXCHANGE OF GENETIC MATERIAL 39 3.5 RECENT ADVANCEMENT OF VIRUSES VERSUS DISEASES 40 3.6 THE EFFECT OF OCEAN ACIDIFICATION ON MARINE VIRUSES 41 3.7 FURTHER ASPECTS 41 ACKNOWLEDGMENTS 41 REFERENCES 42 4 TAXONOMIC STUDY OF ANTIBIOTIC-PRODUCING MARINE ACTINOBACTERIA 45 PRIYANKA KISHORE, NEELAM MANGUTANI, HIRAK R. DASH, AND SURAJIT DAS 4.1 INTRODUCTION 45 4.2 MATERIALS AND METHODS 48 4.2.1 STUDY AREA AND SAMPLING 48 4.2.2 ISOLATION OF ACTINOMYCETES 48 4.2.3 SCREENING FOR ANTIMICROBIAL ACTIVITY 48 4.2.4 IDENTIFICATION AND SYSTEMATICS 49 4.2.4.1 PHENOTYPIC CHARACTERIZATION 49 4.2.4.2 PHYSIOLOGICAL AND BIOCHEMICAL CHARACTERIZATION 49 IMAGE 3 CONTENTS IVII 4.2.4.3 CHEMOTAXONOMICAL CHARACTERIZATION 50 4.3 RESULT 50 4.4 DISCUSSION 53 4.5 CONCLUSION 55 ACKNOWLEDGMENTS 55 REFERENCES 55 5 MARINE CYANOBACTERIA: A PROLIFIC SOURCE OF BIOACTIVE NATURAL PRODUCTS AS DRUG LEADS 59 LIK TONG TAN 5.1 INTRODUCTION 59 5.2 BIOACTIVE SECONDARY METABOLITES FROM MARINE CYANOBACTERIA 60 5.2.1 ANTICANCER AGENTS 60 5.2.1.1 MICROTUBULE-INTERFERING COMPOUNDS 60 5.2.1.2 ACTIN-STABILIZING AGENTS 61 5.2.1.3 HISTONE DEACETYLASE INHIBITORS 62 5.2.1.4 P53/MDM2 INHIBITOR 63 5.2.1.5 PROTEASOME INHIBITORS 64 5.2.1.6 PROTEASE INHIBITORS 65 5.2.1.7 APOPTOSIS-INDUCING AGENTS 67 5.2.1.8 OTHER POTENT CYTOTOXIC COMPOUNDS 68 5.2.2 NEUROMODULATING AGENTS 70 5.2.3 MODULATORS OF THE VOLTAGE-GATED SODIUM CHANNELS AND CALCIUM OSCILLATION 71 5.2.4 CANNABINOMIMETIC AGENTS 74 5.2.5 ANTI-INFECTIVE AGENTS 74 5.2.5.1 ANTIPROTOZOAL AGENTS 74 5.2.5.2 ANTIMYCOBACTERIAL AGENTS 77 5.2.5.3 ANTI-INFLAMMATORY AGENTS 77 5.3 CONCLUSIONS 78 ACKNOWLEDGMENT 78 REFERENCES 78 6 MARINE BACTERIA ARE AN ATTRACTIVE SOURCE TO OVERCOME THE PROBLEMS OF ANTIBIOTIC-RESISTANT STAPHYLOCOCCUS AUREUS 83 DAE-SUNG LEE, SUNG-HWAN EOM, MYUNG-SUK LEE, AND YOUNG-MOG KIM 6.1 INTRODUCTION 83 6.1.1 MECHANISMS OF BACTERIAL RESISTANCE TO ANTIBIOTICS 83 6.1.2 PREVALENCE OF MRS A 84 6.2 STRATEGIES FOR OVERCOMING ANTIBIOTIC RESISTANCE OF BACTERIA 86 6.2.1 SYNTHESIS OF NEW CHEMICAL ENTITIES 86 . 6.2.2 SCREENING NCES FOR NEW ANTIBIOTICS 87 6.2.3 SYNERGISTIC EFFECT OF COMBINATION OF COMMERCIAL ANTIBIOTICS 87 6.2.4 THE GENOMICS REVOLUTION 87 6.2.5 BACTERIOPHAGES 88 IMAGE 4 V I I I \| CONTENTS 6.2.6 MARINE BACTERIA PRODUCING AN ANTIBACTERIAL SUBSTANCE 88 6.3 MARINE BACTERIA ARE ATTRACTIVE NATURAL SOURCES FOR OVERCOMING ANTIBIOTIC RESISTANCE OF MRS A 89 6.3.1 ISOLATION OF AN ANTI-MRSA SUBSTANCE FROM MARINE BACTERIA 89 6.3.2 ANTIBACTERIAL ACTIVITY OF 1-ACETYL-P-CARBOLINE 90 6.3.3 COMBINATION EFFECT OF 1-ACETYL-P-CARBOLINE AND P-LACTAMS AGAINST MRSA 91 REFERENCES 93 7 MARINE BACTERIA AS PROBIOTICS AND THEIR APPLICATIONS IN AQUACULTURE 97 CHAMILANI NIKAPITIYA 7.1 INTRODUCTION 97 7.2 DEFINITION OF PROBIOTICS IN AQUACULTURE 99 7.3 SELECTING AND DEVELOPING PROBIOTICS IN AQUACULTURE 101 7.4 EFFECTS OF PROBIOTICS ON AQUATIC ORGANISMS 103 7.4.1 POSSIBLE MODE OF ACTION 103 7.4.1.1 COMPETITIVE EXCLUSION 103 7.4.1.2 ANTAGONISMS 104 7.4.1.3 PROBIOTICS AS IMMUNE STIMULANTS 104 7.4.1.4 ANTIVIRAL EFFECTS 106 7.4.1.5 DIGESTIVE PROCESS 106 7.4.1.6 ADHESION 107 7.5 PROBIOTICS IN THE LARVICULTURE 108 7.5.1 PROBIOTICS IN THE LARVICULTURE OF MOLLUSKS 108 7.5.2 PROBIOTICS IN THE LARVICULTURE OF CRUSTACEANS 110 7.5.3 PROBIOTICS IN THE LARVICULTURE OF FINFISH 112 7.5.3.1 PROBIOTICS IN FISH JUVENILE AND ADULTS 114 7.6 PROBLEMS ASSOCIATED WITH PROBIOTICS DEVELOPMENT 115 7.7 FURTHER WORK AND CONCLUSIONS 116 REFERENCES 117 8 SMALL-MOLECULE ANTIBIOTICS FROM MARINE BACTERIA AND STRATEGIES TO PREVENT REDISCOVERY OF KNOWN COMPOUNDS 127 MATTHIAS WIETZ, MARIA MANSSON, NIKOLAJ C. VYNNE, AND LONE CRAM 8.1 ANTIBIOTIC ACTIVITY OF MARINE BACTERIA 127 8.2 STRUCTURALLY ELUCIDATED MARINE BACTERIAL ANTIBIOTICS 128 8.2.1 ACTINOBACTERIA 128 8.2.2 PSEUDOALTEROMCMAS SPP. 131 8.2.3 VIBRIONACEAE 132 8.2.4 ANTIBIOTIC COMPOUNDS FROM OTHER PHYLOGENETIC GROUPS 134 8.2.4.1 FIRMICUTES 134 8.2.4.2 ROSEOBACTER CLADE 135 8.2.4.3 PSEUDOMONAS SPP. 136 8.2.4.4 CYANOBACTERIA 136 8.3 COSMOPOLITAN ANTIBIOTICS: THE REDISCOVERY PROBLEM 138 IMAGE 5 CONTENTS I I X 8.4 FUTURE STRATEGIES FOR THE DISCOVERY OF MARINE BACTERIAL ANTIBIOTICS 139 8.4.1 ACCESSING NOVEL MARINE BACTERIAL NATURAL PRODUCTS THROUGH IMPROVED CULTIVATION AND SAMPLING APPROACHES 140 8.4.2 ELICITING PRODUCTION OF ANTIBIOTICS BY ACTIVATING SILENT BIOSYNTHETIC PATHWAYS 141 8.4.3 GENOME-BASED NATURAL PRODUCT RESEARCH 142 8.5 CONCLUSIONS AND PERSPECTIVES 143 REFERENCES 143 9 MARINE BACTERIOPHAGES FOR THE BIOCONTROL OF FISH AND SHELLFISH DISEASES 161 MAHANAMA DE ZOYSA 9.1 INTRODUCTION 161 9.2 MODE OF ACTION OF PHAGES 162 9.3 DIVERSITY OF MARINE PHAGES 163 9.4 APPLICATION OF MARINE PHAGES TO CONTROL FISH AND SHELLFISH DISEASES 165 9.5 POTENTIALS AND LIMITATIONS OF PHAGE THERAPY IN MARINE FISH AND SHELLFISH 167 ACKNOWLEDGMENT 169 REFERENCES 169 MARINE ACTINOMYCETES AS SOURCE OF PHARMACEUTICALLY IMPORTANT COMPOUNDS 173 M. L ARVINDA SWAMY INTRODUCTION 173 MARINE ACTINOMYCETES AS SOURCE OF THERAPEUTICS 173 MARINE ACTINOMYCETE COMPOUNDS AS ANTIBACTERIALS 174 MARINE ACTINOMYCETE COMPOUNDS AS ANTITUMORS/ ANTIPROLIFERATIVE 177 MARINE ACTINOMYCETE ENZYMES AS ANTIPROLIFERATIVES 181 MARINE ACTINOMYCETE COMPOUNDS AS ANTIMALARIALS 182 MARINE ACTINOMYCETE COMPOUNDS AS ANTIFUNGALS 184 BIOACTIVE COMPOUNDS FROM SPONGE-ASSOCIATED ACTINOMYCETES 184 CONCLUSION 187 ACKNOWLEDGMENT 187 REFERENCES 187 11 ANTIMICROBIAL AGENTS FROM MARINE CYANOBACTERIA AND ACTI NOMYCETES 191 ARNAB PRAMANIK, MALAY SAHA, AND BARINDRA SANA 11.1 INTRODUCTION 191 11.2 ANTIMICROBIALS FROM MARINE ACTINOMYCETES 192 11.2.1 ANTIBACTERIAL ACTIVITY 192 11.2.2 ANTIFUNGAL ACTIVITY 194 10 10.1 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9 IMAGE 6 X \| CONTENTS 11.2.3 ANTIVIRAL ACTIVITY 195 11.3 ANTIMICROBIALS FROM MARINE CYANOBACTERIA 196 11.3.1 ANTIBACTERIAL ACTIVITY 196 11.3.2 ANTIFUNGAL ACTIVITY 197 11.3.3 ANTIVIRAL ACTIVITY 198 11.4 CURRENT RESEARCH STATUS: CHALLENGES AND FUTURE PROSPECTS 199 11.5 CONCLUSIONS 201 REFERENCES 201 12 BIOACTIVE COMPOUNDS FROM MARINE ACTINOMYCETES 207 ANA M. INIGUEZ-MARTINEZ, GRACIELA GUERRA-RIVAS, NAHARA E. AYALA-SANCHEZ, AND IRMA E. SORIA-MERCADO 12.1 INTRODUCTION 207 12.2 ACTINOMYCETES 207 12.3 DIVERSITY AND DISTRIBUTION OF MARINE ACTINOBACTERIA 208 12.4 BIOACTIVE COMPOUNDS 210 12.5 CONCLUSIONS 217 ACKNOWLEDGMENT 217 REFERENCES 217 13 FUNGAL BIOACTIVE GENE CLUSTERS: A MOLECULAR INSIGHT 223 IRA BHATNAGAR AND SE-KWON KIM 13.1 INTRODUCTION TO FUNGAL SECONDARY METABOLITES 223 13.2 POLYKETIDE SYNTHASE 225 13.2.1 CLASSIFICATION OF FUNGAL PKS 226 13.2.1.1 NONREDUCING PKSS 227 13.2.1.2 PARTIALLY REDUCING PKSS 228 13.2.1.3 HIGHLY REDUCING PKSS 229 13.3 NONRIBOSOMAL PEPTIDE SYNTHETASE 229 13.4 PKS AND NRPS PRODUCTS 231 13.4.1 FUNGAL PKS PRODUCTS: AFLATOXIN AND FUSARIN 231 13.4.2 FUNGAL NRPS PRODUCTS: PENICILLIN/CEPHALOSPORIN AND DIKETOPIPERAZINE 232 13.5 CONCLUSIONS 233 ACKNOWLEDGMENTS 233 REFERENCES 234 14 ANTICANCER POTENTIALS OF MARINE-DERIVED FUNGAL METABOLITES 237 SE-KWON KIM AND PRADEEP DEWAPRIYA 14.1 INTRODUCTION 237 14.2 MARINE FUNGI 238 14.3 CANCER INITIATION, PROGRESSION, AND THERAPEUTICS 238 14.4 ANTICANCER METABOLITES OF MARINE FUNGAL ORIGIN 239 14.4.1 CYTOTOXIC AND ANTITUMOR COMPOUNDS 239 14.4.2 APOPTOSIS INDUCING METABOLITES 241 IMAGE 7 CONTENTS IXI 14.4.3 ANTIMETASTASIS COMPOUNDS 241 14.4.4 ANTI-INFLAMMATORY AND ANTIOXIDANT COMPOUNDS 242 14.5 FUTURE PROSPECTS AND CONCLUDING REMARKS 243 REFERENCES 243 15 ANTIFUNGAL AND ANTIMYCOTOXIN ACTIVITIES OF MARINE ACTINOMYCETES AND THEIR COMPOUNDS 247 PEI-SHENG YAN, LI-XIN CAO, ANDJING REN 15.1 INTRODUCTION 249 15.2 DIVERSITY OF ACTINOMYCETES IN THE SEA 247 15.2.1 FREE-LIVING MARINE ACTINOMYCETES 247 15.2.2 ORGANISMS-ASSOCIATED MARINE ACTINOMYCETES 249 15.3 DIVERSITY OF NATURAL COMPOUNDS FROM MARINE ACTINOMYCETES 250 15.3.1 AMINOGLYCOSIDES 251 15.3.2 MACROLIDES 251 15.3.3 POLYKETIDES 251 15.3.4 ENZYMES AND PROTEINS 251 15.3.5 OTHER SUBSTANCES 252 15.4 BIOLOGICAL ACTIVITIES 252 15.4.1 ANTIFUNGAL ACTIVITIES AGAINST CLINICAL AND HUMAN PATHOGENS 252 15.4.2 ANTIFUNGAL ACTIVITIES AGAINST PLANT FUNGAL PATHOGENS 253 15.4.3 ANTIMYCOTOXIN ACTIVITIES 255 15.5 CONCLUSIONS 256 _ ACKNOWLEDGMENTS 256 REFERENCES 256 16 ANTITUBERCULOSIS MATERIALS FROM MARINE MICROBES 261 QUANG VAN TA AND SE-KWON KIM 16.1 INTRODUCTION 261 16.2 MARINE MICROBE-DERIVED ANTITUBERCULOSIS AGENTS 262 16.2.1 ALKALOIDS 262 16.2.2 LIPIDS 263 16.2.3 PEPTIDES 263 16.2.4 TERPENES 264 16.3 CONCLUSIONS 264 REFERENCES 265 17 HARNESSING THE CHEMICAL AND GENETIC DIVERSITIES OF MARINE MICROORGANISMS FOR MEDICAL APPLICATIONS 267 XINQING ZHAO, WENCE JIAO, AND XIAONA XU 17.1 INTRODUCTION 267 17.2 NOVEL MNPS 268 17.3 GENE-BASED STUDIES OF MNPS 279 17.4 MNPS DISCOVERY USING GENOME MINING 281 IMAGE 8 X I I \| CONTENTS 17.4.1 GENOME MINING OF PEPTIDE PRODUCTS USING MALDI-TOF MASS SPECTROMETRY-BASED APPROACHES 284 17.4.2 COMPARATIVE METABOLIC PROFILING FOR THE DISCOVERY OF NOVEL COMPOUNDS 285 17.4.3 IDENTIFICATION OF THE BIOSYNTHETIC GENES BY SINGLE-CELL GENOME AMPLIFICATION 286 17.5 CONCLUSION AND PROSPECTS 286 ACKNOWLEDGMENTS 287 REFERENCES 287 18 MARINE SYMBIOTIC MICROORGANISMS: A NEW DIMENSION IN NATURAL PRODUCT RESEARCH 295 S.W.A HIMAYA AND SE-KWON KIM 18.1 INTRODUCTION 295 18.2 MARINE MICROORGANISMS AND THEIR SYMBIOTIC RELATIONSHIPS 296 18.3 BIOLOGICALLY ACTIVE METABOLITES OF MARINE SYMBIOTIC MICROBES 297 18.3.1 MICROORGANISMS ISOLATED FROM MARINE ALGAE 298 18.3.2 MARINE SPONGE-ASSOCIATED MICROORGANISM 299 18.3.3 MARINE INVERTEBRATE-ASSOCIATED MICROORGANISMS 301 18.3.4 MICROBIAL ASSOCIATION WITH MANGROVE 302 18.4 CONCLUDING REMARKS 303 REFERENCES 303 19 APPLICATION OF PROBIOTICS FROM MARINE MICROBES FOR SUSTAINABLE MARINE AQUACULTURE DEVELOPMENT 307 NGUYEN VAN DUY, LE MINH HOANG, AND TRANG SY TRUNG 19.1 INTRODUCTION 307 19.1.1 THE CONCEPT OF SUSTAINABLE DEVELOPMENT IN AQUACULTURE 307 19.1.2 FRESHWATER AND MARINE CULTURE FOR A SUSTAINABLE DEVELOPMENT 308 19.1.3 CURRENT APPROACHES FOR SUSTAINABLE MARINE AQUACULTURE DEVELOPMENT 308 19.1.3.1 VACCINE 308 19.1.3.2 ANTIBIOTIC ALTERNATIVES 309 19.1.3.3 PREBIOTICS 309 19.1.3.4 PROBIOTICS 310 19.2 THE APPLICATION OF PROBIOTICS FOR MARINE FISHES 310 19.2.1 TURBOT (SCOPHTHALMUS MAXIMUS) 310 19.2.2 ATLANTIC COD (GADUS MORHUA) 313 19.2.3 RAINBOW TROUT (ONCORHYNCHUS MY KISS) 315 19.2.4 GILTHEAD SEA BREAM ( SPARUS AURATU) 321 19.2.5 OTHER MARINE FISHES 323 19.2.5.1 SEA BASS (DICENTRARCHUS LAB RAX) 323 19.2.5.2 ATLANTIC HALIBUT ( HIPPOGLOSSUS HIPPOGLOSSUS) 324 19.2.5.3 OLIVE FLOUNDER (PARALICHTHYS OLIVACEUS) 324 19.2.5.4 CLOWNFISH (AMPHIPRION SPP.) 325 19.2.5.5 COMMON SNOOK (CENTROPOMUS UNDECIMALIS) 325 IMAGE 9 19.2.5.6 POLLACK ( POLLACHIUS POLLACHIUS) 326 19.2.5.7 GOLDFISH ( CARASSIUS AURATUS) 326 19.3 THE APPLICATION OF PROBIOTICS FOR MARINE CRUSTACEANS 326 19.3.1 BLACK TIGER SHRIMP {PENAEUS MONODON) 326 19.3.2 WHITE SHRIMP (L. VANNAMEI) 329 19.3.3 OTHER CRUSTACEANS 334 19.3.3.1 BLUE SHRIMP (LITOPENAEUS STYLIROSTRIS) 334 19.3.3.2 WESTERN KING PRAWN ( PENAEUS LATISULCATUS) 334 19.3.3.3 - TROPICAL ROCK LOBSTER ( PANULIRUS ORNATUS) 334 19.3.3.4 CRABS 335 19.4 THE APPLICATION OF PROBIOTICS FOR MARINE MOLLUSKS 335 19.4.1 CHILEAN SCALLOP (A. PURPURATUS) 336 19.4.2 PACIFIC OYSTER (C. GIG AS) 339 19.4.3 OTHER MOLLUSKS 339 19.4.3.1 GREAT SCALLOP ( P . M A X I M U S ) 3 3 9 19.4.3.2 EUROPEAN FLAT OYSTER (O. EDULIS) 340 19.4.3.3 CORTEZ OYSTER (C. CORTEZIENSIS) 340 REFERENCES 340 20 ANTIMICROBIAL PROPERTIES OF EICOSAPENTAENOIC ACID (C20: 5N-3) ANDREW P. DESBOIS 20.1 INTRODUCTION 351 20.1.1 POTENTIAL OF EICOSAPENTAENOIC ACID AS AN ANTIMICROBIAL AGENT 351 20.1.2 BIOCHEMISTRY, BIOLOGICAL FUNCTIONS, AND NATURAL SOURCES 351 20.2 SPECTRUM OF ANTIMICROBIAL ACTIVITY AND POTENCY 355 20.2.1 ISOLATION AND CONFIRMATION OF ANTIMICROBIAL ACTIVITY 355 20.2.2 ANTIBACTERIAL ACTIVITIES 355 20.2.3 ANTIFUNGAL ACTIVITIES 357 20.2.4 ANTAGONISTIC ACTIVITIES AGAINST MICROALGAE 357 20.2.5 ANTAGONISTIC ACTIVITIES AGAINST PROTOZOA AND VIRUSES 358 20.3 STRUCTURE RELATIONSHIP WITH ACTIVITY 358 20.3.1 IMPORTANCE OF A FREE CARBOXYL GROUP 358 20.3.2 IMPORTANCE OF UNSATURATED DOUBLE BONDS 359 20.4 MECHANISM OF ANTIMICROBIAL ACTION 359 20.4.1 MICROBIAL GROWTH INHIBITION AND CELL KILLING 359 20.4.2 EFFECTS ON THE CELL MEMBRANE 360 20.4.3 EFFECTS ON OTHER CELL TARGETS 361 20.5 SAFETY, DELIVERY, AND BIOTECHNOLOGICAL APPLICATION 361 20.5.1 TOXICITY IN VITRO 361 20.5.2 TOXICITY IN VIVO 362 20.5.3 DELIVERY AND BIOTECHNOLOGICAL EXPLOITATION 362 20.6 CONCLUDING REMARKS 363 ABBREVIATIONS 364 ACKNOWLEDGMENT 364 REFERENCES 365 IMAGE 10 X I V \| CONTENTS 21 BIOPROSPECTING OF MARINE MICROBIAL SYMBIONTS: EXPLOITATION OF UNDEREXPLORED MARINE MICROORGANISMS 369 OCKY K. RADJASA 21.1 INTRODUCTION 369 21.2 MARINE MICROBIAL SYMBIONTS 370 21.3 BIOETHICAL AND SUPPLY ISSUES IN UTILIZING MARINE INVERTEBRATES 371 21.4 MARINE FUNGAL SYMBIONTS OF CORALS AS SUSTAINABLE SOURCES OF MARINE NATURAL PRODUCTS 372 21.5 MARINE ACTINOMYCETE SYMBIONTS AS PROLIFIC MARINE NATURAL PRODUCTS 373 21.6 NEW AVENUE OF RESEARCH: MARINE NATURAL PRODUCTS FROM FUNGAL SYMBIONTS OF CORALS 375 21.7 CONCLUDING REMARKS 376 REFERENCES 377 22 MARINE MICROORGANISMS AND THEIR VERSATILE APPLICATIONS IN BIOACTIVE COMPOUNDS 379 SOUGATA JANA, ARIJIT GANDHI, SAMRAT CHAK RABORTY, KALYAN K. SEN, AND SANAT K. BASU 22.1 INTRODUCTION 379 22.2 SEPARATION AND ISOLATION TECHNIQUES OF BIOACTIVE COMPOUNDS FROM MARINE ORGANISMS 379 22.3 DIFFERENT BIOACTIVE COMPOUNDS FROM MARINE ORGANISMS 380 22.3.1 BIOEMULSIFIERS AND BIOSURFACTANTS 380 22.3.2 BIOACTIVE METABOLITES OFTHERAPEUTIC VALUE 381 22.3.3 ENZYMES 382 22.3.3.1 PROTEASE 383 22.3.3.2 LIPASES 383 22.3.3.3 CHITINASE 384 22.3.3.4 ALGINATE LYASES 384 22.3.3.5 AGARASE 384 22.4 POLYSACCHARIDES 384 22.5 PIGMENTS 386 22.6 CONCLUSIONS 386 REFERENCES 387 23 METABOLITES OF MARINE MICROORGANISMS AND THEIR PHARMACOLOGICAL ACTIVITIES 393 KUSTIARIYAH TARMAN, ULRIKE LINDEQUIST, AND SABINE MUNDT 23.1 INTRODUCTION 393 23.2 MARINE FUNGI 393 23.2.1 BIOLOGICAL SOURCES OF MARINE FUNGI 394 23.2.2 MARINE FUNGAL METABOLITES AND THEIR PHARMACOLOGICAL ACTIVITIES 395 23.2.3 RECENT FOCUS ON MARINE FUNGAL RESEARCH 395 IMAGE 11 CONTENTS \|XV 23.3 MARINE ACTINOMYCETES 397 23.3.1 BIOLOGICAL SOURCES OF MARINE ACTINOMYCETES 398 23.3.2 METABOLITES OF MARINE ACTINOMYCETES AND THEIR PHARMACOLOGICAL ACTIVITIES 398 23.3.3 RECENT FOCUS ON MARINE ACTINOMYCETE RESEARCH 401 23.4 MARINE CYANOBACTERIA 402 23.4.1 BIOLOGICAL SOURCES OF MARINE CYANOBACTERIA 402 23.4.2 METABOLITES OF MARINE CYANOBACTERIA AND THEIR PHARMACOLOGICAL ACTIVITIES 402 23.4.3 RECENT FOCUS OF RESEARCH ON MARINE CYANOBACTERIA 404 23.5 CONCLUSIONS 407 REFERENCES 407 24 SPONGES: A RESERVOIR FOR MICROORGANISM-DERIVED BIOACTIVE METABOLITES 417 VISAMSETTI AMARENDRA, RAMACHANDRAN 5. SANTHOSH, AND KANDASAMY DHEVENDARAN 24.1 INTRODUCTION 417 24.2 COLLECTION OF SPONGES AND ASSOCIATED MICROBES 420 24.2.1 IDENTIFICATION OF SPONGES AND EXTRACTION OF MICROBES 420 24.2.2 ISOLATION OF MICROBES 421 24.2.3 EXTRACTION OF METABOLITES 421 24.2.4 CHARACTERIZATION OF BIOLOGICALLY ACTIVE COMPOUND 421 24.3 BACTERIA .421 24.3.1 ACTINOBACTERIA 422 24.3.2 FIRMICUTES 424 24.3.3 PROTEOBACTERIA 425 24.3.3.1 ALPHAPROTEOBACTERIA 426 24.3.3.2 BETAPROTEOBACTERIA 426 24.3.3.3 GAMMAPROTEOBACTERIA 426 24.3.3.4 DELTAPROTEOBACTERIA 428 24.3.4 VERRUCOMICROBIA 428 24.3.5 CYANOBACTERIA 428 24.4 UNIDENTIFIED BACTERIA 429 24.5 FUNGI 430 24.5.1 ASCOMYCETES 430 24.5.2 DOTHIDEOMYCETES 431 24.5.3 EUROTIOMYCETES 433 24.5.4 SORDARIOMYCETES 437 24.6 UNIDENTIFIED FUNGAL STRAINS FROM SPONGES 440 24.7 COMPOUNDS IN CLINICAL TRIAL AND USE 440 24.8 CONCLUSIONS 447 ACKNOWLEDGMENTS 447 REFERENCES 447 IMAGE 12 X V I I CONTENTS 25 BIOACTIVE MARINE MICROORGANISMS FOR BIOCATALYTIC REACTIONS IN ORGANIC COMPOUNDS 453 LENILSON C. ROCHA, JULIETA R. DE OLIVEIRA, BRUNA VACONDIO, CISELE N. RODRIGUES, MIMA H. REGALI SELEGHIM, AND ANDRE L. MELEIRO PORTO 25.1 INTRODUCTION 453 25.2 MARINE ENZYMES 454 25.3 BIOTRANSFORMATION OF NATURAL PRODUCTS BY MARINE BIOCATALYSTS 455 25.4 BIODEGRADATION OF ORGANIC COMPOUNDS BY MARINE BIOCATALYSTS 459 25.5 REDUCTION OF CARBONYL GROUPS (KETONES AND KETO ESTERS) BY MARINE BIOCATALYSTS 466 25.6 HYDROLYSIS OF EPOXIDES BY MARINE BIOCATALYSTS 471 25.7 COLLECTION AND ISOLATION OF BIOACTIVE MARINE MICROORGANISMS 474 25.7.1 FUNGI 477 25.7.2 BACTERIA 479 25.7.3 ACTINOMYCETES 480 25.7.4 BACTERIAL EXTREMOPHILES 482 25.8 CONCLUSIONS AND PERSPECTIVES 483 REFERENCES 484 26 MARINE MICROBIAL ENZYMES: BIOTECHNOLOGICAL AND BIOMEDICAL ASPECTS 491 BARINDRA SANA 26.1 INTRODUCTION. 491 26.2 EXTREMOZYMES: MOST POTENTIAL MARINE ENZYMES 492 26.3 BIOTECHNOLOGICAL ASPECTS 494 26.3.1 DETERGENT INDUSTRY 494 26.3.2 FOOD PROCESSING INDUSTRY 495 26.3.3 CHEMICAL AND PHARMACEUTICAL SYNTHESIS 496 26.3.4 BIOTECHNOLOGICAL RESEARCH 498 26.3.5 LEATHER INDUSTRY 498 26.3.6 PAPER INDUSTRY 499 26.3.7 TEXTILE INDUSTRY 499 26.3.8 BIOFUEL INDUSTRY 500 26.3.9 BIOREMEDIATION AND BIOFOULING 501 26.4 BIOMEDICAL ASPECTS 502 26.5 CONCLUDING REMARKS AND PERSPECTIVES 503 REFERENCES 504 27 BIOMEDICAL APPLICATIONS OF MYCOSPORINE-LIKE AMINO ACIDS 509 RICHA AND RAJESHWAR P. SINHA 27.1 INTRODUCTION 509 27.2 MYCOSPORINE-LIKE AMINO ACIDS (MAAS) 510 27.3 DISTRIBUTION OF MAAS 514 27.3.1 MAAS IN CYANOBACTERIA 514 IMAGE 13 27.3.2 MAAS IN MACROALGAE 515 27.3.3 MAAS IN MICROALGAE 516 27.3.3.1 DINOFLAGELLATES 516 27.3.3.2 PRYMNESIOPHYTES 517 27.3.3.3 RAPHIDOPHYTES 517 27.3.3.4 DIATOMS 517 27.3.4 MAAS IN LOWER INVERTEBRATES 518 27.4 GENETIC CONTROL OF MAAS SYNTHESIS 519 27.5- MAAS INDUCTION 521 27.6 BIOMEDICAL POTENTIALS OF MAAS 522 27.7 MAAS AS PHOTOPROTECTANTS 523 27.8 MAAS AS AN ANTIOXIDANT 524 27.9 MAAS AS BLOCKER OF DIMER FORMATION 525 27.10 MAAS AS AN OSMOREGULATOR 525 27.11 CONCLUSIONS AND FUTURE PROSPECTS 526 ACKNOWLEDGMENT 526 REFERENCES 526 INDEX 535
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dewey-sort	3547.7
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illustrated	Illustrated
indexdate	2024-12-24T03:37:47Z
institution	BVB
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language	English
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spellingShingle	Marine microbiology bioactive compounds and biotechnological applications Bioaktive Verbindungen (DE-588)4145589-7 gnd Meeresmikrobiologie (DE-588)4747276-5 gnd Industrielle Mikrobiologie (DE-588)4026845-7 gnd
subject_GND	(DE-588)4145589-7 (DE-588)4747276-5 (DE-588)4026845-7
title	Marine microbiology bioactive compounds and biotechnological applications
title_auth	Marine microbiology bioactive compounds and biotechnological applications
title_exact_search	Marine microbiology bioactive compounds and biotechnological applications
title_full	Marine microbiology bioactive compounds and biotechnological applications ed. by Se-Kwon Kim
title_fullStr	Marine microbiology bioactive compounds and biotechnological applications ed. by Se-Kwon Kim
title_full_unstemmed	Marine microbiology bioactive compounds and biotechnological applications ed. by Se-Kwon Kim
title_short	Marine microbiology
title_sort	marine microbiology bioactive compounds and biotechnological applications
title_sub	bioactive compounds and biotechnological applications
topic	Bioaktive Verbindungen (DE-588)4145589-7 gnd Meeresmikrobiologie (DE-588)4747276-5 gnd Industrielle Mikrobiologie (DE-588)4026845-7 gnd
topic_facet	Bioaktive Verbindungen Meeresmikrobiologie Industrielle Mikrobiologie
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work_keys_str_mv	AT kimsekwon marinemicrobiologybioactivecompoundsandbiotechnologicalapplications

Marine microbiology bioactive compounds and biotechnological applications

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