Bacterial signaling:
Gespeichert in:
| Format: | Buch |
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| Sprache: | English |
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Weinheim
Wiley-VCH
2010
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| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XXV, 489 S. Ill., graph. Darst. 240 mm x 170 mm |
| ISBN: | 9783527323654 |
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| 245 | 1 | 0 | |a Bacterial signaling |c ed. by Reinhard Krämer ... |
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| 650 | 4 | |a Bacteria |x Physiology | |
| 650 | 4 | |a Bacterial Physiological Phenomena | |
| 650 | 4 | |a Cell Communication |x physiology | |
| 650 | 4 | |a Cell interaction | |
| 650 | 4 | |a Cellular signal transduction | |
| 650 | 4 | |a Signal Transduction |x physiology | |
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Datensatz im Suchindex
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CONTENTS PREFACE XIX LIST OF CONTRIBUTORS XXI PART I INTERCELLULAR
COMMUNICATION 1 INTRODUCTION 3 CLAUDIA ANETZBERGER AND KIRSTEN JUNG 1
CELL-CELL COMMUNICATION AND BIOFILM FORMATION IN CRAM-POSITIVE BACTERIA
7 CHRISTINE HEILMANN AND FRIEDRICH GOETZ 1.1 INTRODUCTION 7 1.2
STAPHYLOCOCCAL INFECTIONS AND BIOFILMS 8 1.3 MOLECULAR BASIS OF BIOFFLM
FORMATION IN STAPHYLOCOCCI 8 1.3.1 ATTACHMENT TO ABIOTIC SURFACES 8
1.3.2 ATTACHMENT TO BIOTIC SURFACES 10 1.3.3 ACCUMULATION PROCESS 11
1.3.3.1 POLYSACCHARIDE-ASSOCIATED BIOFILM ACCUMULATION 11 1.3.3.2
EXTRACELLULAR DNA 12 1.3.3.3 PROTEIN-ASSOCIATED BIOFILM ACCUMULATION 12
1.3.4 BIOFILM ESCAPE FACTORS 12 1.4 QS IN STAPHYLOCOCCAL BIOFILMS 13
1.4.1 AGR QS LOCUS 13 1.4.2 LUXS/AI-2 SYSTEM 17 REFERENCES 17 2
CELL-CELL COMMUNICATION IN BIOFILMS OF CRAM-NEGATIVE BACTERIA 23 CLAUDIO
AGUILAR, AURELIEN CARLIER, KATHRIN RIEDEL, AND LEO EBERI 2.
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/995646996 DIGITALISIERT
DURCH VI I CONTENTS 2.3 QS AND BIOFILM FORMATION 24 2.3.1 WHEN IN THE
BIOFILM CYCLE DOES QS PLAY A ROLE? 27 2.4 QS-REGULATED FACTORS INVOLVED
IN BIOFILM FORMATION 29 2.4.1 EPSS 29 2.4.2 BIOSURFACTANTS 30 2.4.3 DNA
RELEASE 31 2.4.4 PHYSIOLOGY: DISSIMILATORY NITRATE REDUCTION IN P.
AERUGINOSA 32 2.5 QS AS A TARGET FOR THE ERADICATION OF BIOFILMS 32 2.6
INTERSPECIES SIGNALING IN MIXED BIOFILMS 34 2.7 CONCLUSIONS 34
REFERENCES 35 3 CELL INTERACTIONS CUIDE THE SWARMING AND FRUITING BODY
DEVELOPMENT OF MYXOBACTERIA 4 1 DALE KAISER 3.1 INTRODUCTION 41 3.2
MOTILITY OF MYXOBACTERIA 41 3.3 PILUS ENGINE 42 3.4 SLIME SECRETION
ENGINE 43 3.5 SWARMING OF MYXOBACTERIA 44 3.6 REGULATING REVERSALS 45
3.7 FRUITING BODY DEVELOPMENT 46 3.8 *-SIGNAL AND FRUITING BODY
MORPHOGENESIS 48 3.9 MANAGING THE REVERSAL FREQUENCY 48 3.10 C-SIGNAL
CONTROL OF GENE EXPRESSION 49 CONTENTS VII 5 COMMUNICATION BETWEEN
PATHOGENS AND EUKARYOTIC CELLS 75 JUERGEN HEESEMANN 5.1 INTRODUCTION 75
5.2 LONG-DISTANCE COMMUNICATION 77 5.2.1 LANGUAGE OF PATHOGEN-ASSOCIATED
MOLECULAR PATTERNS 77 5.2.1.1 TLRS 78 5.2.1.2 CYTOSOLIC PAMP RECEPTORS
80 5.2.1.3 PAMPS AS CHEMOATTRACTANTS 81 5.2.2 LANGUAGE OF HORMONES 83
5.2.3 EXTRACELLULAR BACTERIAL TOXINS IN PATHOGEN-HOST CELL COMMUNICATION
86 5.2.3.1 SUPERANTIGENS 86 5.2.3.2 CHOLERA TOXIN 86 5.2.3.3 BORDETELLA
MODULINS 87 5.2.3.4 HELICOBACTER 87 5.2.3.5 VACA 87 5.2.3.6 CLOSTRIDIUM
DIFFICILE TOXINS 87 5.3 SHORT-DISTANCE COMMUNICATION 88 5.3.1 BACTERIAL
ADHESINS AND HOST CELL RECEPTORS 88 5.4 CONCLUSIONS 91 REFERENCES 91 6
IDENTIFICATION OF BACTERIAL AUTOINDUCERS - METHODS CHAPTER 95 AGNES
FEKETE, MICHAEL ROTHBALLER, ANTON HARTMANN, AND PHILIPPE SCHMITT-KOPPLIN
6. VILI CONTENTS PARTII TRANSMEMBRANE SIGNALING 213 INTRODUCTION 125
REINHARD KRAEMER 7 OUTER MEMBRANE SIGNALING IN GRAM-NEGATIVE BACTERIA 2 2
7 VOLKMAR BRAUN 7.1 INTRODUCTION 2 27 7.2 A SOPHISTICATED MECHANISM: A
SIGNALING CASCADE ACROSS THE OUTER MEMBRANE IN TRANSCRIPTIONAL
REGULATION OF THE FERRIC CITRATE TRANSPORT GENES 2 27 7.3 TRANSFER OF
THE SIGNAL ACROSS THE CYTOPLASMIC MEMBRANE 121 7.4 SIGNAL TRANSFER INTO
THE CYTOPLASM 221 7.5 FEEL IS AN ECF SIGMA FACTOR 122 7.6 MECHANISM OF
FERRIC CITRATE TRANSCRIPTION REGULATION 123 7.7 TRANSCRIPTION REGULATION
OF THE FEE TYPE IN PSEUDOMONAS PUTIDA 123 7.8 TRANSCRIPTION REGULATION
OF THE FEE TYPE IN PSEUDOMONAS AERUGINOSA 124 7.9 TRANSCRIPTIONAL
REGULATION OF THE FEE TYPE IN BORDETELLA 126 7.10 ECF SIGNALING IN
SERRATIA MARCESCENS 127 7.11 ECF SIGNALING IN RALSTONIA SOLANACEARUM 127
7.12 SIGNALING IN OUTER MEMBRANE TRANSPORT 227 7.13 ASSUMED OUTER
MEMBRANE SIGNALING 228 7.14 CONCLUSIONS 128 REFERENCES 130 8 STIMULUS
PERCEPTION AND SIGNALING IN HISTIDINE KINASES 23 CONTENTS IX 9.2.2
PROTEIN INTERACTIONS IN THE TERNARY COMPLEX 166 9.3 CLUSTERING OF
SENSORY COMPLEXES 167 9.3.1 CHEMORECEPTOR CLUSTERS 267 9.3.2 CLUSTER
ASSEMBLY AND POSITIONING 168 9.3.3 CLUSTER POSITIONING 268 9.3.4 CLUSTER
STABILITY 269 9.4 ROLE OF CLUSTERING IN SIGNAL PROCESSING 270 9.4.1 ROLE
OF PROTEIN LOCALIZATION 270 9.4.2 SIGNAL AMPLIFICATION 170 9.4.3
ALLOSTERIC MODELS AND THE ROLE OF THE METHYLATION SYSTEM IN HIGH
SENSITIVITY 170 9.4.4 SIGNAL INTEGRATION 272 9.4.5 ADAPTATIONAL
ASSISTANCE NEIGHBORHOODS 173 9.5 CONCLUSIONS AND OUTLOOK 173 REFERENCES
273 10 PHOTORECEPTION AND SIGNAL TRANSDUCTION 277 SONJA BRANDT AND
NICOLE FRANKENBERG-DINKEL 10.1 INTRODUCTION 277 10.2 BACTERIAL
BLUE-LIGHT PHOTORECEPTORS 178 10.2.1 MICROBIAL RHODOPSINS 178 10.2.2
CRYPTOCHROMES 281 10.2.3 PHOTOACTIVE YELLOW PROTEINS (XANTHOPSINS) 183
10.2.4 BLUF DOMAIN PROTEINS 183 10.2.5 PHOTOTROPIN-IIKE MICROBIAL
PHOTORECEPTORS 184 10.3 RED-LIGHT SENSING - PHYTOCHROMES 185 10.3.
CONTENTS 11.3.4 **** LINKER DOMAIN STRUCTURE 205 11.4 CONCLUSIONS 206
REFERENCES 207 12 SENSORY TRANSPORT PROTEINS 211 REINHARD KRAEMER 12.1
INTRODUCTION 212 12.2 SENSING OF TRANSPORT ACTIVITY 212 12.2.1
ESCHERICHIA COLI MALTOSE SYSTEM AND THE GLOBAL REGULATOR MLC 223 12.2.2
E. COLI UHP SYSTEM 215 12.2.3 DICARBOXYLIC ACID UPTAKE IN E. COLI AND
RHIZOBIA 226 12.2.4 LYSP/CADC SYSTEM IN E. COLI 218 12.2.5 AMMONIUM
SIGNALING 218 12.2.6 FURTHER TRANSPORT SYSTEMS WITH SUBSTRATE SENSING
FUNCTION 219 12.3 STRESS SENSING BY TRANSPORT PROTEINS 219 12.3.1
MECHANOSENSITIVE CHANNELS 220 12.3.2 OSMOSENSORY UPTAKE SYSTEMS 221 12.4
CONCLUSIONS AND PERSPECTIVE 223 REFERENCES 224 13 REGULATED
IRTTRAMEMBRANE PROTEOLYSIS IN BACTERIAL TRANSMEMBRANE SIGNALING 229
THOMAS WIEGERT 13.1 INTRODUCTION 229 13.2 BACTERIAL I-CIIPS 231 13.
CONTENTS XI 14 PROTEIN CHEMICAL AND ELECTRON PARAMAGNETIC RESONANCE
SPECTROSCOPIE APPROACHES TO MONITOR MEMBRANE PROTEIN STRUCTURE AND
DYNAMICS - METHODS CHAPTER 247 DANIEL HILGER AND HEINRICH JUNG 14.1
INTRODUCTION 247 14.2 CYSTEINE CHEMISTRY 248 14.2.1 GENERAL
CONSIDERATIONS 248 14.2.2 APPLICATIONS OF CYSTEINE CHEMISTRY 250
14.2.2.1 CYSTEINE ACCESSIBILITY ANALYSES 250 14.2.2.2 PROXIMITY
RELATIONSHIPS IN PROTEINS BY CYSTEINE CROSS-LINKING 252 14.3
SITE-DIRECTED SPIN LABELING AND EPR SPECTROSCOPY 253 14.3.1 WHY EPR
SPECTROSCOPY? 253 14.3.2 SITE-DIRECTED SPIN LABELING OF PROTEINS 253
14.3.3 INFORMATION ON PROTEIN STRUCTURE AND DYNAMICS BASED ON SPIN LABEL
DYNAMICS 255 14.3.3.1 EXAMPLE 256 14.3.4 INFORMATION ON PROTEIN
STRUCTURE AND DYNAMICS BASED ON SPIN LABEL ACCESSIBILITY 256 14.3.4.1
EXAMPLE 257 14.3.5 POLARITY AND PROTICITY IN THE SPIN LABEL
MICROENVIRONMENT 257 14.3.5.1 EXAMPLE 258 14.3.6 INTRA- AND
INTERMOLECULAR DISTANCES BY DOUBLE SPIN LABELING AND INTERSPI XII
CONTENTS 15.4 INTRACELLULAR SIGNAL-TRANSDUCING AND OUTPUT DOMAINS 276
15.4.1 TWO-COMPONENT SIGNAL TRANSDUCTION 276 15.4.2 CHEMOTAXIS 276
15.4.3 SUGAR. PTS 279 15.4.4 C-DI-GMP-MEDIATED SIGNALING 279 15.4.5
SERINE/THREONINE PROTEIN PHOSPHORYLATION SIGNALING SYSTEM 279 15.5
DIVERSITY OF INTRACELLULAR SIGNALING PATHWAYS 280 REFERENCES 280 16
SENSING OF OXYGEN BY BACTERIA 289 GOTTFRIED UNDEN, MARTIN MUELLNER, AND
FLORIAN REINHART 16.1 INTRODUCTION 289 16.2 O 2 AS A SIGNAL 290 16.3
DIRECT O 2 SENSORS 291 16.3.1 HEME B-CONTAINING SENSORS 292 16.3.1.1
FIXL 291 16.3.1.2 DOS 294 16.3.1.3 HEMAT 294 16.3.2 [4FE-4S] 2+
-CONTAINING SENSORS 294 16.3.2.1 FNR EC 294 16.3.2.2 FNR BS 296 16.3.2.3
NREB 296 16.3.2.4 WHIB3 296 16.3.2.5 [4FE-4S] 2+ AS A UNIVERSAL COFACTOR
FOR O 2 CONTENTS XIII 17.2.4 H 2 SIGNALING CASCADE 322 17.2.5 H 2 SENSOR
COMPLEX IN ACTION 324 17.2.6 CONCLUDING REMARKS AND PERSPECTIVES 315
17.3 SENSING OF NITRIC OXIDE AND CARBON MONOXIDE 315 17.3.1 PRIMARY
SENSORS FOR NO 316 17.3.1.1 NORR-TYPE NO-SENSING REGULATORS 327 17.3.1.2
NSRR-TYPE NO SENSING REGULATORS 318 17.3.1.3 NO-SENSING REGULATORS
CONTAINING CAP DOMAINS 328 17.3.2 PRIMARY SENSORS FOR CO 319 17.3.2.1
COOA - A CO SENSOR OF ANAEROBIC CARBOXIDOTROPHS 320 17.3.2.2 RCOM - A CO
SENSOR OF AEROBIC CARBOXIDOTROPHS 321 17.3.3 HYPOTHETICAL OR SECONDARY
SENSORS SYSTEMS FOR NO AND/OR CO 321 17.3.3.1 EUKARYOTIC-STYLE NO
SENSING IN PROKARYOTES 321 17.3.3.2 NO SENSING BY FUR, SOXR, AND OXYR
322 17.3.3.3 DETECTING MULTIPLE DIATOMIC GASES: SENSORS RESPONDING TO O
2 , CO, AND NO 323 REFERENCES 324 18 SIGNAL TRANSDUCTION BY TRIGGER
ENZYMES: BIFUNCTIONAL ENZYMES AND TRANSPORTERS CONTROLLING CENE
EXPRESSION 329 FABIAN M. COMMICHAU AND JOERG STUELKE 18.1 INTRODUCTION 329
XIV CONTENTS 19.6 PHOSPHORYLATION OF HPR BY THE BIFUNCTIONAL
KINASE/PHOSPHORYLASE LINKS CCR TO THE METABOLIE STATE OF THE CELL IN
GRAM-POSITIVE BACTERIA 349 19.7 HPR CONTROLS INDUCER EXCLUSION IN LOW-GC
GRAM-POSITIVE BACTERIA 349 19.8 CONTROL OF TRANSCRIPTION REGULATORS BY
ELI 350 19.9 CATABOLITE CONTROL OF PRD-CONTAINING REGULATORS BY
HPR(HIS~P)-MEDIATED PHOSPHORYLATION 351 19.10 PTS-DEPENDENT REGULATION
OF CHEMOTAXIS 352 19.11 REGULATORY FUNCTIONS OF PARALOGOUS PTSS 352
REFERENCES 353 20 CAMP SIGNALING IN PROKARYOTES 357 KNUTJAHREIS 20.1
INTRODUCTION 357 20.2 CCR - A SHORT HISTORICAL ACCOUNT 357 20.3
REGULATION OF INTRACELLULAR CAMP LEVELS: PTS AS A SENSOR AND SIGNAL
TRANSDUCTION SYSTEM THAT MODULATES AC ACTIVITY 358 20 .4 ANOTHER
EXTENSION OF THE SIMPLE MODEL: CATABOLITE REPRESSION BY NON-PTS
SUBSTRATES: THE PEP: PYRUVATE RATIO IS A KEY NODE IN CARBON AND ENERGY
METABOLISM 362 20.5 CAMP EXCRETION AND PHOSPHODIESTERASE ACTIVITY 363
20.6 FUNCTION OF THE CAMP-CRP COMPLEX 364 20.6.1 TRANSCRIPTIONAL
REGULATION OF THE CRP CONTENTS XV 21.2.3 RECRUITMENT OF GGDEF AND EAL
DOMAINS FOR C-DI-GMP-UNRELATED FUNCTIONS 379 21.2.4 REGULATION OF DGC
AND PDE ACTIVITY AND EXPRESSION 380 21.2.5 C-DI-GMP-BINDING EFFECTORS
380 21.3 SIGNALING SPECIFICITY 382 21.4 C-DI-GMP SIGNALING IN E. COLI
382 21.5 C-DI-GMP SIGNALING IN V. CHOLERAE 385 21.6 C-DI-GMP SIGNALING
IN C. CRESCENTUS 387 21.7 CONCLUSIONS AND OUTLOOK 388 REFERENCES 389 22
PPCPP SIGNALING 395 ROLF WAGNER 22.1 INTRODUCTION 395 22.2 INDUCTION OF
THE EFFECTOR (P)PPGPP THROUGH SYNTHESIS AND DEGRADATION 396 22.3 PPGPP -
A BONA FIDE GLOBAL REGULATOR 398 22.3.1 TRANSCRIPTIONAL PROFILING IN
DIFFERENT BACTERIAL STRAINS 398 22.3.2 LACK OF (P)PPGPP SIGNALING IN
OBLIGATE INTRACELLULAR BACTERIAL PATHOGENS AND ARCHAEA 399 22.3.3 PPGPP
IN PLANTS 399 12.3.4 (P)PPGPP AS A MEDIATOR OF BACTERIAL SOCIAL BEHAVIOR
AND CELL-CELL SIGNALING MECHANISMS 400 22.3.5 (P)PPG-PP SIGNALING IN
VIRULENCE AND PATHOGEN-HOST INTERACTION 400 XVI CONTENTS 23 23.1 23.2
23.3 23.4 23.5 SENSORY RNAS 425 FRANZ NARBERHAUS INTRODUCTION 425 RNA AS
A REGULATORY MOLECULE 415 RIBOSWITCB.ES 426 RNA THERMOMETERS 420
CONCLUSIONS 422 REFERENCES 423 24 SIGNAL TRANSDUCTION BY
SERINE/THREONINE PROTEIN KINASES IN BACTERIA 427 MICHAEL BOIT 24.1
INTRODUCTION 427 24.2 DISCOVERY AND DISTRIBUTION OF STPKS IN PROKARYOTES
427 24.3 SERINE/THREONINE PHOSPHORYLATION VERSUS HISTIDINE/ASPARTATE
PHOSPHORYLATION 428 24.4 DOMAIN ARCHITECTURE OF STPKS 428 24.5
STRUCTURAL STUDIES ON STPKS 429 24.6 SIGNAL TRANSDUCTION BY STPKS 432
24.7 CONTROL OF GENE EXPRESSION BY PKNB VIA THE ACTIVITY OF SIGMA
FACTORS 434 24.8 CONTROL OF GENE EXPRESSION BY PKNH VIA THE
TRANSCRIPTIONAL REGULATOR EMBR 435 24.8.1 DISCOVERY OF EMBR IN
MYCOBACTERIA AND ITS PHOSPHORYLATION BY PKNH 435 24.8.2 STRUCTURE OF
EMBR 435 CONTENTS XVII 25 REGULATORY PROTEOLYSIS AND SIGNAL TRANSDUCTION
IN BACTERIA 449 KUERSAD TURGAY 25.1 INTRODUCTION 449 25.2 HSPLOO/CLP AND
OTHER AAA+ PROTEASE SYSTEMS IN BACTERIA 450 25.3 SUBSTRATE RECOGNITION
AND ADAPTOR PROTEINS 452 25.3.1 SUBSTRATE RECOGNITION 452 25.3.2 ADAPTOR
PROTEINS 452 25.4 EXAMPLES OF REGULATORY PROTEOLYSIS IN B. SUBTILIS 454
25.4.1 COMPETENCE DEVELOPMENT AND THE PROTEOLYTIC SWITCH 454 25.4.2 HEAT
SHOCK ADAPTATION 455 25.5 CONCLUSIONS 456 REFERENCES 457 26
INTRACELLULAR SIGNALING AND GENE TARGET ANALYSIS - METHODS CHAPTER 463
JOERN KALINOWSKI 26.1 INTRODUCTION 463 26.2 GENOME-WIDE EXPRESSION
ANALYSIS 463 26.3 FINDING UNKNOWN TARGET GENES 465 26.3.1 SYSTEMATIC
EVOLUTION OF LIGANDS BY EXPONENTIAL ENRICHMENT (SELEX) 465 26.3.2
CHROMATIN IMMUNOPRECIPITATION (CHIP) 467 26.4 ANALYZING KNOWN TARGETS
468 26.4.1 DNA AFFINITY CHROMATOGRAPHY (DAC) 469 26.4.2 ELECTROPHORETIC
MOBILITY SHIFT ASSAY (EMSA) 469 26.5 CONCLUSIONS AND OUTLOOK 472
REFERENCES 472 |
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| id | DE-604.BV035854882 |
| illustrated | Illustrated |
| indexdate | 2024-07-20T10:24:46Z |
| institution | BVB |
| isbn | 9783527323654 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018712851 |
| oclc_num | 608617692 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-11 DE-1102 DE-M49 DE-BY-TUM DE-19 DE-BY-UBM |
| owner_facet | DE-355 DE-BY-UBR DE-11 DE-1102 DE-M49 DE-BY-TUM DE-19 DE-BY-UBM |
| physical | XXV, 489 S. Ill., graph. Darst. 240 mm x 170 mm |
| publishDate | 2010 |
| publishDateSearch | 2010 |
| publishDateSort | 2010 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Bacterial signaling ed. by Reinhard Krämer ... Weinheim Wiley-VCH 2010 XXV, 489 S. Ill., graph. Darst. 240 mm x 170 mm txt rdacontent n rdamedia nc rdacarrier Bacteria Physiology Bacterial Physiological Phenomena Cell Communication physiology Cell interaction Cellular signal transduction Signal Transduction physiology Bakterien (DE-588)4004296-0 gnd rswk-swf Signaltransduktion (DE-588)4318717-1 gnd rswk-swf Bakterien (DE-588)4004296-0 s Signaltransduktion (DE-588)4318717-1 s DE-604 Krämer, Reinhard Sonstige (DE-588)140162356 oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3339673&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018712851&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Bacterial signaling Bacteria Physiology Bacterial Physiological Phenomena Cell Communication physiology Cell interaction Cellular signal transduction Signal Transduction physiology Bakterien (DE-588)4004296-0 gnd Signaltransduktion (DE-588)4318717-1 gnd |
| subject_GND | (DE-588)4004296-0 (DE-588)4318717-1 |
| title | Bacterial signaling |
| title_auth | Bacterial signaling |
| title_exact_search | Bacterial signaling |
| title_full | Bacterial signaling ed. by Reinhard Krämer ... |
| title_fullStr | Bacterial signaling ed. by Reinhard Krämer ... |
| title_full_unstemmed | Bacterial signaling ed. by Reinhard Krämer ... |
| title_short | Bacterial signaling |
| title_sort | bacterial signaling |
| topic | Bacteria Physiology Bacterial Physiological Phenomena Cell Communication physiology Cell interaction Cellular signal transduction Signal Transduction physiology Bakterien (DE-588)4004296-0 gnd Signaltransduktion (DE-588)4318717-1 gnd |
| topic_facet | Bacteria Physiology Bacterial Physiological Phenomena Cell Communication physiology Cell interaction Cellular signal transduction Signal Transduction physiology Bakterien Signaltransduktion |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=3339673&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018712851&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kramerreinhard bacterialsignaling |