Verfügbarkeit: Microbial physiology & metabolism

Microbial physiology & metabolism:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Caldwell, Daniel R. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dubuque, Iowa [u.a.] Brown 1995
Schlagworte:	Microorganismes - Métabolisme Microorganismes - Physiologie Microbial metabolism Microorganisms > Physiology Mikroorganismus Stoffwechsel Physiologie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 353 S. graph. Darst.
ISBN:	0697171922

Internformat

MARC


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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE ACKNOWLEDGMENTS XIX XXI CHAPTER 1 THE NATURE OF MICROBIAL PHYSIOLOGY WHAT IS PHYSIOLOGY? WHERE DO THE MICROBES FIT IN THE PHYSIOLOGICAL WORLD? THE COMPARATIVE PHYSIOLOGY OF MICROBES AND LARGE LIFE FORMS SIZE STRUCTURES METABOLIC VERSATILITY AND ADAPTABILITY NUTRITION SUMMARY 1 1 2 2 2 3 3 3 4 CHAPTER 2 THE SUBCELLULAR STRUCTURES OF MICROBES 5 THE STRUCTURES OF LARGE AND SMALL LIFE FORMS 5 THE COMPARATIVE STRUCTURAL PROPERTIES OF PROCARYOTIC AND EUCARYOTIC CELLS 5 THE STRUCTURES OF THE MICROBIAL CELL 7 GELATINOUS SURFACE LAYERS 7 PROPOSED FUNCTIONS FOR CAPSULES 7 CELL WALLS 8 CONTRASTS BETWEEN WALLS IN EUCARYOTES AND PROCARYOTES 8 THE GRAM-POSITIVE PROCARYOTIC CELL WALL 8 TEICHOIC ACIDS 9 THE GRAM-NEGATIVE CELL ENVELOPE 9 THE PERIPLASM 10 COMPARISONS BETWEEN THE GRAM-NEGATIVE CELL ENVELOPE AND THE GRAM-POSITIVE CELL WALL 10 PROTOPLASTS AND SPHEROPLASTS 11 THE COMPARATIVE PROPERTIES OF INTACT CELLS, PROTOPLASTS, AND SPHEROPLASTS 11 PHAGE ATTACHMENT AND REPLICATION 12 THE WALL IS REQUIRED FOR INDUCTION OF SPORULATION, BUT NOT FOR ITS COMPLETION 12 PROTEIN SYNTHESIS, DNA REPLICATION, AND TRANSPORT 12 VII IMAGE 2 VI11 MICROBIAL PHYSIOLOGY AND METABOLISM PILI 13 FLAGELLA AND CILIA 13 EUCARYOTIC FLAGELLA AND CILIA 13 PROCARYOTIC FLAGELLA 14 FLAGELLA SYNTHESIS 15 FLAGELLA MUTANTS 16 CHEMOTAXIS 16 THE FUNCTIONING OF METHYL-ACCEPTING CHEMOTACTIC PROTEINS 16 PERIPLASMIC FLAGELLA 17 OTHER MOTILITY MODES 17 SWARMING MOTILITY 17 NONFLAGELLA-MEDIATED MOTILITY 17 GLIDING MOTILITY 17 THE CYTOPLASMIC MEMBRANE 17 THE ROLE OF THE CYTOPLASMIC MEMBRANE IN SELECTIVE PERMEABILITY AND TRANSPORT 18 THE SIEVE AND PORE THEORIES 18 THE MOSAIC THEORY 18 THE REVERSIBLE CHEMICAL COMBINATION THEORY 18 THE PERMEASE THEORY 19 THE MOLECULAR REORIENTATION THEORY 19 THE FLUID MOSAIC THEORY OF MEMBRANE STRUCTURE AND ITS IMPLICATIONS FOR TRANSPORT 19 INTRACELLULAR MEMBRANOUS ORGANELLES 19 MEMBRANOUS ORGANELLES IN PROCARYOTES 19 MEMBRANOUS CYTOPLASMIC ORGANELLES IN EUCARYOTES 19 DOUBLE-MEMBRANE BOUND INTRACYTOPLASMIC EUCARYOTIC ORGANELLES 20 THE GOLGI APPARATUS 20 THE ENDOPLASMIC RETICULUM 20 RIBOSOMES 20 GENETIC MATERIAL 21 PLASMIDS 21 SPORES 21 STORAGE GRANULES 22 SUMMARY 22 SELECTED REFERENCES 23 CHAPTER 3 S T R U C T U RE F O R M A T I ON 27 THE COMMON PROPERTIES OF STRUCTURE SYNTHESIS IN MICROBES 27 CRITICAL PHYSIOLOGICAL QUESTIONS REGARDING STRUCTURE SYNTHESIS 28 SYNTHESIS OF THE GRAM-POSITIVE WALL 28 TRANSPORT OF BUILDING BLOCKS THROUGH THE MEMBRANE 28 TEICHOIC AND TEICHURONIC ACID SYNTHESIS 30 ADDITIONAL FEATURES OF GRAM-POSITIVE WALL SYNTHESIS 35 GRAM-NEGATIVE CELL ENVELOPE FORMATION 35 LIPOPOLYSACCHARIDE SYNTHESIS 36 PHOSPHOLIPIDS AND OUTER MEMBRANE PROTEINS 36 ASSEMBLY OF THE GRAM-NEGATIVE ENVELOPE 36 MUREIN LIPOPROTEIN 36 IMAGE 3 CONTENTS IX EXOPOLYSACCHARIDE SYNTHESIS PHYSIOLOGICAL QUESTIONS POSED BY EXOPOLYSACCHARIDE SYNTHESIS PHYSIOLOGICAL FACTORS THAT INFLUENCE EXOPOLYSACCHARIDE FORMATION MODES OF EXOPOLYSACCHARIDE SYNTHESIS THE IMPORTANCE OF DINUCLEOTIDE PRECURSORS THE INVOLVEMENT OF LIPID-BOUND PRECURSORS POLYMER FORMATION EXCRETION OF THE COMPLETED POLYMER AND ATTACHMENT TO THE CELL SURFACE REGULATION OF EXOPOLYSACCHARIDE FORMATION AND FUNCTION RELATIONSHIPS BETWEEN EXOPOLYSACCHARIDE SYNTHESIS AND CELL WALL SYNTHESIS SUMMARY SELECTED REFERENCES 39 40 40 40 41 42 42 42 43 43 45 45 CHAPTER 4 THE PHYSIOLOGICAL IMPLICATIONS OF NUTRITION NUTRITION AS AN INDICATION OF PHYSIOLOGICAL COMPLEXITY THE COMMONALITY OF GROWTH REQUIREMENTS THE BACTERIA AS NUTRITIONAL MODELS NUTRITION IMPLIES MUCH MORE THAN WHAT AN ORGANISM NEEDS TO GROW CRITICAL PHYSIOLOGICAL IMPLICATIONS OF A NUTRIENT REQUIREMENT THE AMOUNT OF A NUTRIENT REQUIRED DOES NOT DETERMINE ITS IMPORTANCE SPECIFICITY AND FORM UPTAKE NUTRITIONAL MUTANTS AS PHYSIOLOGICAL PROBES STRUCTURE FORMATION AND FUNCTION RESPONSE TO ENVIRONMENTAL CHANGE SUMMARY SELECTED REFERENCES 47 47 48 49 49 50 50 50 51 51 51 52 53 53 CHAPTER 5 GROWTH THE GENERAL IMPLICATIONS OF MICROBIAL GROWTH THE NATURE OF MICROBIAL GROWTH CELL DIVISION IS OBLIGATORY FOR MICROBES WHY DOES A MICROBIAL CELL DIVIDE? THE EVENTS OF CELL DIVISION IN A POPULATION PHASES OF BATCH CULTURE SHIFT UP AND SHIFT DOWN CHANGES INOCULUM SIZE THE LOGARITHMIC PHASE THE STATIONARY PHASE THE DEATH PHASE CONTINUOUS CULTURE MECHANISMS OF CONTINUOUS CULTURE CONTROL CHEMOSTATIC CONTINUOUS CULTURE DILUTION RATE AND GROWTH RATE EFFECTS GROWTH YIELDS AND MAINTENANCE ENERGY 55 55 55 55 56 56 57 58 58 58 58 59 59 60 60 62 63 IMAGE 4 MICROBIAL PHYSIOLOGY AND METABOLISM SYNCHRONOUS CULTURE METHODS FOR ACHIEVING SYNCHRONOUS CULTURE GROWTH MEASUREMENT DIRECT MEASURES OF GROWTH VIABLE CELL MEASUREMENT MEASURES OF MASS DRY WEIGHT PROTEIN MEASUREMENT METHODS THE FOLIN REACTION COOMASSIE BLUE DNA THE RELATIONSHIP OF CELL MASS MEASURES TO OTHER PARAMETERS GROWTH YIELD AND RATE CALCULATION CALCULATING THE LAG TIME THE INSTANTANEOUS GROWTH RATE ARITHMETIC GROWTH MICROBIAL GROWTH IN THE LABORATORY AND IN NATURE SUMMARY SELECTED REFERENCES 63 63 64 65 65 66 66 66 67 67 67 67 67 69 69 70 70 70 71 CHAPTER 6 TRANSPORT THE CRITICAL IMPORTANCE OF TRANSPORT TYPES OF TRANSPORT SIMPLE DIFFUSION FACILITATED DIFFUSION ACTIVE TRANSPORT CHEMICAL MODIFICATION TRANSPORT TRANSPORT IN GRAM-NEGATIVE BACTERIA ION TRANSPORT IRON TRANSPORT METHODS FOR STUDY OF TRANSPORT STUDY OF PROTEIN-MEDIATED TRANSPORT TRANSPORT KINETICS THE PHYSIOLOGICAL CONSEQUENCES OF TRANSPORT COMPARISONS OF TRANSPORT RATES RELATIVE INTERNAL AND EXTRACELLULAR CONCENTRATIONS OF SUBSTANCES SUMMARY SELECTED REFERENCES 73 73 73 74 74 74 74 76 77 78 78 79 79 80 80 80 82 82 CHAPTER 7 CATABOLIC METABOLISM THE NATURE OF METABOLISM THE INTERCONNECTEDNESS OF BIOCHEMICAL REACTIONS WAYS IN WHICH REACTIONS ARE INTERCONNECTED THE BACTERIA ARE THE MOST METABOLICALLY DIVERSE LIFE FORMS CENTRAL PATHWAYS OF METABOLISM COMMON BIOSYNTHETIC INTERMEDIATES 83 83 83 84 84 84 85 IMAGE 5 CONTENTS XI THE EMBDEN-MEYERHOF-PARNAS PATHWAY 85 HEXOSE MONOPHOSPHATE PATHWAYS 89 THE HEXOSE MONOPHOSPHATE SHUNT PATHWAY 89 THE ENTNER-DOUDOROFF PATHWAY 91 CONTRASTS BETWEEN THE EMBDEN-MEYERHOF AND ENTNER-DOUDOROFF PATHWAYS 91 THE XYLULOSE-5-PHOSPHATE PHOSPHOKETOLASE PATHWAY 93 CONSEQUENCES OF THE XYLULOSE-5-PHOSPHATE PHOSPHOKETOLASE PATHWAY 93 THE FATE OF THE TWO-CARBON MOIETY PRODUCED FROM XYLULOSE-5-PHOSPHATE CLEAVAGE 93 THE DOUBLE PHOSPHOKETOLASE PATHWAY 95 CRITICAL FEATURES OF THE DOUBLE PHOSPHOKETOLASE PATHWAY 95 DISTINGUISHING FEATURES OF THE DOUBLE PHOSPHOKETOLASE SEQUENCE 97 THE CITRIC ACID CYCLE 97 THE AMPHIBOLIC NATURE OF THE TCA CYCLE 100 THE ENERGETICS OF THE TCA CYCLE 100 THE GLYOXALATE CYCLE 101 THE USE OF UNUSUAL CARBOHYDRATES 102 PATHWAYS FOR GALACTOSE CATABOLISM 102 THE METHYL GLYOXAL PATHWAY 103 THE USE OF DEHYDROSUGARS 104 SUGAR ALCOHOLS 105 AROMATIC COMPOUNDS 108 AROMATIC AMINO ACID UTILIZATION 109 ALIPHATIC HYDROCARBON UTILIZATION 109 TERMINAL OXIDATION 111 SUBTERMINAL OXIDATION 112 ORGANIC ACIDS 112 SUMMARY 113 SELECTED REFERENCES 115 CHAPTER 8 FERMENTATION 117 THE ANTIQUITY OF INTEREST IN FERMENTATION 117 THE NATURE OF FERMENTATION 117 THE RELATIONSHIP OF OXYGEN TO GROWTH AND FERMENTATION 118 FERMENTATION END PRODUCT FORMATION 119 HEAD-TO-HEAD AND HEAD-TO-TAIL PRODUCTS 119 PRODUCTS FORMED BY HEAD-TO-TAIL CONDENSATION 120 PRODUCTS FORMED FROM HEAD-TO-HEAD CONDENSATION 121 ONE-CARBON PRODUCTS 121 PRODUCTS WHOSE FORMATION REQUIRES CARBON DIOXIDE FIXATION 123 THE DIRECT REDUCTION, OR ACRYIATE PATHWAY, OF PROPIONATE FORMATION 125 ETHANOL AND LACTATE FORMATION 126 THE ACETATE FERMENTATION 126 THE MIXED ACID FERMENTATION 128 THE BUTANEDIOL FERMENTATION 129 THE BUTANOL-ACETONE FERMENTATION 129 THE ETHANOL-ACETATE FERMENTATION 129 AMINO ACID FERMENTATION 130 IMAGE 6 XII MICROBIAL PHYSIOLOGY AND METABOLISM PERSPECTIVES STUDY OF FERMENTATIONS POSITION LABELLING CARBON BALANCES OXIDATION-REDUCTION BALANCES GENERAL RULES FOR OXIDATION-REDUCTION BALANCE CALCULATION PRECAUTIONS IN FERMENTATION BALANCE STUDIES RELATIONSHIPS BETWEEN FERMENTATION, ENERGY PRODUCTION, AND PROTOPLASM ANOMALOUS GROWTH YIELDS YIELD PER ATP MOLE SUMMARY SELECTED REFERENCES 133 133 133 136 137 138 139 139 139 140 142 142 CHAPTER 9 ENERGY GENERATION 143 THE UNIVERSAL REQUIREMENT FOR ENERGY 143 DIVERSITY AND UNITY 143 MECHANISMS OF SUBSTRATE-LEVEL PHOSPHORYLATION 143 THE GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE COMPLEX 144 PYRUVATE KINASE 144 ACETYL KINASE 145 THE COA BOND AS A SOURCE OF ENERGY FOR SUBSTRATE-LEVEL PHOSPHORYLATION 145 PHOSPHOENOL PYRUVATE CARBOXYKINASE 145 PHOSPHOENOL PYRUVATE CARBOXYTRANSPHOSPHORYLASE AND PYRUVATE-PHOSPHATE ORTHODIKINASE 145 ARGININE DESMIDASE AND UREIDASE 145 ELECTRON TRANSPORT 145 THE COMMON PROCESSES OF ELECTRON TRANSPORT 147 THE CARRIERS IN ELECTRON TRANSPORT SYSTEMS 147 OXIDATION-REDUCTION POTENTIALS 148 STRUCTURAL ASPECTS OF ELECTRON TRANSPORT 150 THE MITOCHONDRION 152 SUCCINATE AS A DONOR OF ELECTRONS 155 STRUCTURAL ENIGMAS OF THE MITOCHONDRION 155 CHLOROPLAST-MEDIATED ELECTRON TRANSPORT 156 THE MECHANISM OF ATP FORMATION 157 REVERSE ELECTRON TRANSPORT 159 SUMMARY 159 SELECTED REFERENCES 159 CHAPTER 10 SMALL MOLECULES THE CRITICAL ROLE OF SMALL MOLECULES AS CONNECTING SUBSTANCES FORMATION OF NUCLEOTIDE PRECURSORS FORMATION OF THE PURINE RING STRUCTURE THE COMPLEXITY OF PURINE RING FORMATION PYRIMIDINE RING SYNTHESIS 161 161 161 162 163 163 IMAGE 7 CONTENTS XIII FORMATION OF ACTIVE NUCLEOTIDES 163 DEOXYNUCLEOTIDES 164 REGULATION OF NUCLEOTIDE SYNTHESIS 165 AMINO ACID SYNTHESIS 165 THE PYRUVATE FAMILY 166 THE 3-PHOSPHOGLYCERATE FAMILY 168 THE GLUTAMIC ACID FAMILY 168 THE AROMATIC FAMILY 169 HISTIDINE 173 THE ASPARTIC ACID FAMILY 174 LYSINE FORMATION 175 THE METHIONINE AND ISOLEUCINE BRANCHES OF THE ASPARTIC ACID FAMILY 177 COMMON THREADS IN AMINO ACID SYNTHESIS 177 REGULATION OF AMINO ACID SYNTHESIS 178 LIPID SYNTHESIS 178 FATTY ACID SYNTHESIS 179 COMPLEX LIPID FORMATION 180 CONTRASTS BETWEEN FATTY ACID SYNTHESIS AND DEGRADATION 182 ISOPRENOID SYNTHESIS 182 TETRAPYRROLE FORMATION 184 CARBOHYDRATES 185 SUMMARY 185 SELECTED REFERENCES 186 CHAPTER 11 PROTEIN SYNTHESIS 187 THE CENTRALITY OF PROTEIN SYNTHESIS 187 PROTEIN SYNTHESIS IS A MULTICOMPONENT PROCESS 187 REQUIREMENTS FOR THE PROCESS 188 BUILDING BLOCKS 188 MESSAGE FORMATION 188 MESSAGE FORMATION IN PROCARYOTES 188 TERMINATION OF TRANSCRIPTION 191 RHO PROTEIN-MEDIATED TRANSCRIPTION TERMINATION 193 TRANSCRIPT MODIFICATION 193 TRANSCRIPTION IN EUCARYOTES 193 EUCARYOTIC TRANSCRIPT PROCESSING 196 SPLICING 197 SPLICEOSOMES 197 TRANSLATION 197 TRANSLATION INITIATION IN EUCARYOTES AND PROCARYOTES 201 TERMINATION OF TRANSLATION 201 THE INTIMATE ROLE OF PROTEINS IN THEIR OWN FORMATION 202 SUMMARY 203 SELECTED REFERENCES 203 IMAGE 8 XIV MICROBIAL PHYSIOLOGY AND METABOLISM CHAPTER 12 NUCLEIC ACID METABOLISM CONTRASTS IN THE FUNCTIONS OF DNA AND RNA MODES OF RNA REPLICATION DNA REPLICATION THE THETA MODE THE SIGMA MODE EUCARYOTIC DNA REPLICATION SUMMARY SELECTED REFERENCES 205 205 206 208 208 210 211 212 213 CHAPTER 13 REGULATION THE COMPLEXITY OF REGULATION REGULATION OF PROTEIN FORMATION REGULATION OF MESSAGE FORMATION THE FOUR MAJOR MODES FOR CONTROL OF MESSAGE FORMATION INDUCTION CATABOLITE ACTIVATION COREPRESSION ATTENUATION CONTROL OF TRANSLATION METABOLIC CONTROL OF TRANSLATION REGULATION OF PROTEIN ACTIVITY TYPES OF ALLOSTERIC REGULATION ISOENZYMES REGULATION BY ENERGY CHARGE REGULATION BY CARRIER MOLECULES STRUCTURAL REGULATION THE ROLE OF THE MEMBRANE IN REGULATION OF CELL WALL AND DNA SYNTHESIS MULTIPLE REGULATION SUMMARY SELECTED REFERENCES 215 215 216 216 217 217 217 217 218 219 221 221 221 221 222 223 223 224 224 224 225 CHAPTER 14 GENETICS THE CENTRAL IMPORTANCE OF DNA THE BACTERIA AS MODELS FOR STUDY OF THE STRUCTURE AND FUNCTION OF DNA THE NATURE OF THE BACTERIAL GENOME GENOME ORGANIZATION MUTATION MICROLESIONS MACROLESIONS PHENOTYPIC CONSEQUENCES OF MUTATION CONDITIONAL AND NONCONDITIONAL MUTATION MECHANISMS OF MUTAGENESIS MUTATION REPAIR THE SOS SYSTEM GENETIC EXCHANGE 227 227 227 228 228 229 229 230 232 232 232 233 235 236 IMAGE 9 CHAPTER 15 CONTENTS MECHANISMS OF GENETIC EXCHANGE IN THE BACTERIA TRANSFORMATION STREPTOCOCCAL TRANSFORMATION TRANSFORMATION IN BACILLUS SUBTILIS TRANSFORMATION IN HAEMOPHILUS INFLUENZAE ARTIFICIAL TRANSFORMATION TRANSDUCTION GENERALIZED TRANSDUCTION SPECIALIZED TRANSDUCTION CONJUGATION F FACTORS F FACTOR REPLICATION GENOMIC DNA TRANSFER CONJUGATION IN GRAM-POSITIVE ORGANISMS THE CONSEQUENCES OF GENETIC TRANSFER GENETIC EXPRESSION THE GAL AND ARAOPERONS THE CENTRAL ROLE OF CAMP AS A REGULATORY AGENT THE ARGININE REGULON GLOBAL REGULATION THE STRINGENT RESPONSE PHOSPHATE STARVATION THE AEROBIC TO ANAEROBIC SHIFT THE HEAT SHOCK RESPONSE SUMMARY SELECTED REFERENCES THE EFFECTS OF ENVIRONMENTAL FACTORS ON MICROBES TEMPERATURE PHYSIOLOGICAL CONSEQUENCES OF TEMPERATURE CHANGE THE MASTER REACTION CONCEPT THE EFFECTS OF TEMPERATURE ON CELL STRUCTURE AND FUNCTION THE HEAT SHOCK RESPONSE PH THE EFFECTS OF ACIDITY ON PROTEIN FORM AND FUNCTION PH AND THE PMF MAINTENANCE OF INTERNAL PH OXYGEN OSMOLALITY PHYSICAL PRESSURE RADIATION MECHANISMS OF CELL INTERACTION WITH RADIATION RADIATION RESISTANCE DNA REPAIR MECHANISMS NUTRIENT LIMITATION SUMMARY SELECTED REFERENCES XV 237 238 238 238 240 240 241 241 241 242 243 244 244 245 246 247 248 248 250 251 251 251 252 252 253 253 255 255 256 256 257 258 258 258 259 260 260 262 262 262 263 263 263 263 264 264 IMAGE 10 XVI MICROBIAL PHYSIOLOGY AND METABOLISM CHAPTER 16 CHAPTER 17 THE PHYSIOLOGY OF ANTIMICROBIAL CHEMICALS THE HISTORY OF ANTIMICROBIAL CHEMOTHERAPY THE SEARCH FOR SPECIFIC CHEMICALS SELECTIVITY GENERAL MODES OF ACTION OF ANTIMICROBIAL CHEMICALS AGENTS THAT AFFECT ENZYMES WALL-AFFECTING AGENTS PENICILLINS AND CEPHALOSPORINS PENICILLIN-BINDING PROTEINS ADDITIONAL WALL-AFFECTING AGENTS FUNGAL CELL WALL INHIBITORS MEMBRANE-AFFECTING SUBSTANCES MEMBRANE-AFFECTING ANTIBIOTICS AGENTS AFFECTING MEMBRANE CHARGE PROTEIN SYNTHESIS AGENTS CHLORAMPHENICOL AND CYCLOHEXAMIDE STREPTOMYCINS AND TETRACYCLINES THE MACROLIDE ANTIBIOTICS NUCLEIC ACID INHIBITORS DIFFICULTIES WITH ANTI-NUCLEIC ACID-DIRECTED CHEMOTHERAPY SELECTIVITY RESISTANCE MECHANISMS OF RESISTANCE TO ANTIMICROBIAL CHEMICALS SYNTHETIC ANTIMICROBIAL SUBSTANCES SUMMARY SELECTED REFERENCES T HE A U T O T R O P HS THE DIVERSITY OF THE AUTOTROPHS THE COMMON PROPERTIES OF AUTOTROPHS MODES OF CARBON DIOXIDE FIXATION THE CALVIN CYCLE THE REDUCTIVE TCA CYCLE THE ACETYL-COA PATHWAY THE GLYCINE SYNTHETASE PATHWAY OBLIGATE AND FACULTATIVE AUTOTROPHY ENERGY GENERATION CHEMOLITHOTROPHIC ELECTRON TRANSPORT SYSTEMS ELECTRON TRANSPORT IN THE AEROBIC CHEMOLITHOTROPHIC HYDROGEN-OXIDIZING BACTERIA THE SULFATE-REDUCING HYDROGEN BACTERIA METHANOGENIC HYDROGEN UTILIZATION THE NITRIFYING BACTERIA SULFUR-OXIDIZING BACTERIA CARBON MONOXIDE-OXIDIZING ORGANISMS SULFUR AND NITROGEN ASSIMILATION SUMMARY SELECTED REFERENCES 265 265 266 267 267 267 270 271 271 272 272 272 272 273 273 274 274 274 275 276 276 277 278 278 278 279 2 81 281 281 282 282 283 284 285 286 286 286 286 287 287 288 289 291 292 294 295 IMAGE 11 CONTENTS XVII CHAPTER 18 DIFFERENTIATION THE NATURE OF DIFFERENTIATION PHYSIOLOGICAL QUESTIONS RAISED BY DIFFERENTIATION BACTERIAL ENDOSPORULATION AS A MODEL OF DIFFERENTIATION THE EVENTS OF SPORULATION OLD VERSUS NEW ACTIVATION, GERMINATION, AND OUTGROWTH DIFFERENTIATION IN CAULOBACTER CRESCENTUS DIFFERENTIATION IN DICTYOSTELIUM DISCOIDEUM DIFFERENTIATION DURING BACTERIAL CELL DIVISION THE RELATIONSHIPS AMONG DNA SYNTHESIS INITIATION, SEPTATION, AND CELL DIVISION THE SEPTUM GENETIC ASPECTS OF CELL DIVISION GROWTH UNDER NORMAL CONDITIONS OTHER EXAMPLES OF DIFFERENTIATION SUMMARY SELECTED REFERENCES 297 297 297 297 298 300 300 300 302 304 304 304 304 305 305 305 305 CHAPTER 19 THE PHYSIOLOGY OF MICROBIAL ECOLOGY MICROBIAL ECOLOGY AS APPLIED MICROBIAL PHYSIOLOGY THE ESSENTIALITY OF THE DISCIPLINE TYPES OF ECOLOGICAL INTERACTIONS THE ECOLOGICAL NICHE IS THE ORGANISM SIGNIFICANT? ASSESSMENT OF IMPORTANCE MICROBIAL INTERACTIONS AS ENVIRONMENTAL MODIFIERS METABOLISM AS AN ECOLOGICAL MODIFIER COMPETITION FOR NUTRIENTS GROWTH FACTORS STRATEGIES FOR STUDY OF MICROBIAL ECOSYSTEMS STUDY OF INCOMPLETELY CHARACTERIZED ECOSYSTEMS SUMMARY SELECTED REFERENCES 307 307 308 308 308 309 309 310 310 310 311 311 312 312 313 CHAPTER 20 MOLECULAR MICROBIAL PHYSIOLOGY WHY SHOULD WE BE CONCERNED WITH MOLECULAR PHYSIOLOGY? APPLIED MOLECULAR MICROBIAL PHYSIOLOGY THE USE OF MICROBES TO PRODUCE NUCLEIC ACIDS AND PROTEINS STRATEGIES FOR DNA AND PROTEIN PRODUCTION BY GENETIC ENGINEERING GENE ISOLATION CLONING THE GENE CLONING IN PHAGE X THE VERSATILITY OF PHAGE X 315 315 316 316 316 316 320 321 324 IMAGE 12 XVIII MICROBIAL PHYSIOLOGY AND METABOLISM COSMID CLONING 325 PHAGEMIDS 328 THE POLYMERASE CHAIN REACTION 329 EXPRESSION 330 DETECTION OF PROTEIN FORMATION 331 PURIFICATION 332 PHYSIOLOGICAL IMPLICATIONS OF MOLECULAR TECHNIQUES 332 APPLICATIONS OF MOLECULAR BIOLOGY 332 ETHICAL QUESTIONS POSED BY MOLECULAR BIOLOGY 333 SUMMARY 333 SELECTED REFERENCES 334 INDEX 335
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discipline	Biologie Chemie
format	Book
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id	DE-604.BV013699807
illustrated	Illustrated
indexdate	2024-07-09T18:50:28Z
institution	BVB
isbn	0697171922
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-009362637
oclc_num	30712424
open_access_boolean
owner	DE-M49 DE-BY-TUM DE-11
owner_facet	DE-M49 DE-BY-TUM DE-11
physical	XXI, 353 S. graph. Darst.
publishDate	1995
publishDateSearch	1995
publishDateSort	1995
publisher	Brown
record_format	marc
spelling	Caldwell, Daniel R. Verfasser aut Microbial physiology & metabolism Daniel R. Caldwell Dubuque, Iowa [u.a.] Brown 1995 XXI, 353 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Microorganismes - Métabolisme ram Microorganismes - Physiologie ram Microbial metabolism Microorganisms Physiology Mikroorganismus (DE-588)4039226-0 gnd rswk-swf Stoffwechsel (DE-588)4057699-1 gnd rswk-swf Physiologie (DE-588)4045981-0 gnd rswk-swf Mikroorganismus (DE-588)4039226-0 s Physiologie (DE-588)4045981-0 s DE-604 Stoffwechsel (DE-588)4057699-1 s SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009362637&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Caldwell, Daniel R. Microbial physiology & metabolism Microorganismes - Métabolisme ram Microorganismes - Physiologie ram Microbial metabolism Microorganisms Physiology Mikroorganismus (DE-588)4039226-0 gnd Stoffwechsel (DE-588)4057699-1 gnd Physiologie (DE-588)4045981-0 gnd
subject_GND	(DE-588)4039226-0 (DE-588)4057699-1 (DE-588)4045981-0
title	Microbial physiology & metabolism
title_auth	Microbial physiology & metabolism
title_exact_search	Microbial physiology & metabolism
title_full	Microbial physiology & metabolism Daniel R. Caldwell
title_fullStr	Microbial physiology & metabolism Daniel R. Caldwell
title_full_unstemmed	Microbial physiology & metabolism Daniel R. Caldwell
title_short	Microbial physiology & metabolism
title_sort	microbial physiology metabolism
topic	Microorganismes - Métabolisme ram Microorganismes - Physiologie ram Microbial metabolism Microorganisms Physiology Mikroorganismus (DE-588)4039226-0 gnd Stoffwechsel (DE-588)4057699-1 gnd Physiologie (DE-588)4045981-0 gnd
topic_facet	Microorganismes - Métabolisme Microorganismes - Physiologie Microbial metabolism Microorganisms Physiology Mikroorganismus Stoffwechsel Physiologie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009362637&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT caldwelldanielr microbialphysiologymetabolism

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