Anoxygenic photosynthetic bacteria:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Dordrecht [u.a.]
Kluwer Acad. Publ.
1995
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| Schriftenreihe: | Advances in photosynthesis
2 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIV, 1331 S. graph. Darst. |
| ISBN: | 079233681X 0792336828 |
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| 245 | 1 | 0 | |a Anoxygenic photosynthetic bacteria |c ed. by Robert E. Blankenship ... |
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| 490 | 1 | |a Advances in photosynthesis |v 2 | |
| 650 | 7 | |a Anaërobe bacteriën |2 gtt | |
| 650 | 7 | |a Fotosynthese |2 gtt | |
| 650 | 4 | |a Anaerobic bacteria | |
| 650 | 4 | |a Photosynthetic bacteria | |
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ANOXYGENIC PHOTOSYNTHETIC BACTERIA EDITED BY ROBERT E. BLANKENSHIP
DEPARTMENT OF CHEMISTRY AND BIOCHEMISTRY, ARIZONA STATE UNIVERSITY,
TEMPE, ARIZONA, U.S.A. MICHAEL T. MADIGAN DEPARTMENT OF MICROBIOLOGY,
SOUTHERN ILLINOIS UNIVERSITY, CARBONDALE, ILLINOIS, U.S.A. AND CARL E.
BAUER DEPARTMENT OF BIOLOGY, INDIANA UNIVERSITY, BLOOMINGTON, INDIANA,
U.S.A. \ KLUWER ACADEMIC PUBLISHERS DORDRECHT / BOSTON / LONDON CONTENTS
PREFACE XXIII PART I: TAXONOMY PHYSIOLOGY AND ECOLOGY TAXONOMY AND
PHYSIOLOGY OF PHOTOTROPHIC PURPLE BACTERIA AND GREEN SULFUR BACTERIA
1-15 JOHANNES F. IMHOFF SUMMARY 1 I. INTRODUCTION 1 II. GENERAL ASPECTS
OF TAXONOMY 3 III. GENERAL ASPECTS OF PHYSIOLOGY 4 IV. DESCRIPTION OF
THE GROUPS 5 REFERENCES 11 TAXONOMY, PHYSIOLOGY AND ECOLOGY OF
HELIOBACTERIA 17-30 MICHAEL T. MADIGAN AND JOHN G. ORMEROD SUMMARY 17 I.
INTRODUCTION . 18 II. TAXONOMY OF HELIOBACTERIA \ 19 III. PHYSIOLOGY 23
IV. ECOLOGY AND ISOLATION OF HELIOBACTERIA 27 ACKNOWLEDGMENTS 29
REFERENCES 29 TAXONOMY AND PHYSIOLOGY OF FILAMENTOUS ANOXYGENIC
PHOTOTROPHS 31-47 BEVERLY K. PIERSON AND RICHARD W. CASTENHOLZ SUMMARY
32 I. INTRODUCTION 32 II. TAXONOMY AND PHYLOGENY 33 III. PHYSIOLOGY 36
ACKNOWLEDGMENT 44 REFERENCES , 44 ECOLOGY OF PHOTOTROPHIC SULFUR
BACTERIA 49-85 HANS VAN GEMERDEN AND JORDI MAS SUMMARY 50 I.
INTRODUCTION 50 II. CHARACTERISTIC AND VERTICAL STRUCTURE OF THE
HABITATS 50 III. DISTRIBUTION AND ABUNDANCE OF PHOTOTROPHIC SULFUR
BACTERIA IN NATURE 53 IV. CONTRIBUTION OF PHOTOTROPHIC SULFUR BACTERIA
TO PRIMARY PRODUCTION 56 V. GROWTH RATES IN NATURE 58 VI. LOSS PROCESSES
- 60 VII. GROWTH BALANCE, MAXIMUM BIOMASS AND PRODUCTION IN PHOTOTROPHIC
COMMUNITIES 63 VIII. ENVIRONMENTAL FACTORS AFFECTING GROWTH AND SURVIVAL
OF PHOTOTROPHIC SULFUR BACTERIA 63 IX. CASE STUDIES 72 X. CONCLUDING
REMARKS 78 ACKNOWLEDGMENTS 79 REFERENCES 79 ECOLOGY OF THERMOPHILIC
ANOXYGENIC PHOTOTROPHS 87-103 RICHARD W. CASTENHOLZ AND BEVERLY K.
PIERSON SUMMARY 87 I. INTRODUCTION 88 II. CHEMICAL AND GEOGRAPHICAL
DIVERSITY OF THERMAL HABITATS 93 III. PRINCIPAL HABITATS OF THERMOPHILIC
ANOXYGENIC PHOTOTROPHS AND THE ENVIRONMENTAL REQUIREMENTS: CASE STUDIES
94 REFERENCES 101 AEROBIC ANOXYGENIC PHOTOTROPHS 105-122 KEIZO SHIMADA
SUMMARY 105 I. INTRODUCTION 106 II. HABITATS AND CULTURE 106 III.
PHOTOSYNTHETIC APPARATUS 108 IV. PIGMENTS AND OTHER COMPONENTS 111 V.
PHOTOSYNTHETIC ACTIVITY AND ELECTRON TRANSFER SYSTEM 113 VI. REGULATION
OF PIGMENT SYNTHESIS 116 VII. EVOLUTION AND TAXONOMY 118 ACKNOWLEDGMENTS
120 REFERENCES 120 BACTERIOCHLOROPHYLL-CONTAINING RHIZOBIUM SPECIES
123-136 DARRELL E. FLEISCHMAN, WILLIAM R. EVANS AND LAIN M. MILLER
SUMMARY 124 I. INTRODUCTION 124 II. RELATIONSHIP OF
BACTERIOCHLOROPHYLL-CONTAINING RHIZOBIUM SPECIES TO OTHER BACTERIA 126
III. CHARACTERISTICS OF AESCHYNOMENE RHIZOBIUM BTAI 1 GROWN EXPLANTA 127
IV. CHARACTERISTICS OF PHOTOSYNTHETIC RHIZOBIUM IN THE SYMBIOTIC SYSTEM
131 V. CONCLUSIONS 134 ACKNOWLEDGMENTS 135 REFERENCES 135 VI PART II:
MOLECULAR STRUCTURE AND BIOSYNTHESIS OF PIGMENTS AND COFACTORS 8
BIOSYNTHESIS AND STRUCTURES OF THE BACTERIOCHLOROPHYLLS 137-151 MATHIAS
O. SENGE AND KEVIN M. SMITH SUMMARY 137 I. INTRODUCTION 137 II.
STRUCTURAL CHEMISTRY OF THE BACTERIOCHLOROPHYLLS 138 III. BIOSYNTHESIS
OF THE BACTERIOCH LOROPHYUS 141 IV. DEGRADATION OF THE
BACTERIOCHLOROPHYLLS 149 ACKNOWLEDGMENTS 149 REFERENCES 149 9
BIOSYNTHESIS AND STRUCTURES OF PORPHYRINS AND HEMES 153-177 SAMUEL I.
BEALE SUMMARY 153 I. INTRODUCTION 154 II. THE EARLY COMMON STEPS 154
ACKNOWLEDGMENTS 170 REFERENCES 170 10 LIPIDS, QUINONES AND FATTY ACIDS
OF ANOXYGENIC PHOTOTROPHIC BACTERIA 179-205 JOHANNES M. IMHOFFAND URSULA
BIAS-LMHOFF SUMMARY 180 I. INTRODUCTION 180 II. POLAR LIPIDS AND FATTY
ACIDS 183 III. APOLAR LIPIDS 198 REFERENCES 201 PART III. MEMBRANE AND
CELL WALL ARCHITECTURE AND ORGANIZATION 11 ANOXYGENIC PHOTOTROPHIC
BACTERIA: MODEL ORGANISMS FOR STUDIES ON CELL WALL MACROMOLECULES
207-230 JURGEN WECKESSER, HUBERT MAYER AND GEORG SCHULZ SUMMARY I.
INTRODUCTION II. DEFINITION, FUNCTION, AND CONSTITUENTS OF THE CELL WALL
III. PHYLOGENETIC RELEVANCE OF CELL WALL CONSTITUENTS IV. STRUCTURE OF
LIPOPOLYSACCHARIDE (LPS) V. CONTRIBUTION OF THE LIPOPOLYSACCHARIDES
(LPS) OF PURPLE BACTERIA TO ENDOTOXIN RESEARCH VI. PORIN VII. EXTERNAL
ENVELOPE LAYERS VIII. CONCLUDING REMARKS REFERENCES 208 208 208 209 217
219 221 222 223 226 VLL 12 STRUCTURE, MOLECULAR ORGANIZATION, AND
BIOSYNTHESIS OF MEMBRANES OF PURPLE BACTERIA 231-257 GERHART DREWS AND
JOCHEN R. GOLECKI SUMMARY 231 I. INTRODUCTION 232 II. STRUCTURE AND
SUPRAMOLECULAR ORGANIZATION OF CYTOPLASMIC AND INTRACYTOPLASMIC
MEMBRANES 233 III. BIOSYNTHESIS OF MEMBRANES AND THE ASSEMBLY OF THE
FUNCTIONAL COMPLEXES OF THE PHOTOSYNTHETIC APPARATUS 242 ACKNOWLEDGMENTS
251 REFERENCES 251 13 MEMBRANES AND CHLOROSOMES OF GREEN BACTERIA:
STRUCTURE, COMPOSITION AND DEVELOPMENT 259-278 JURGEN OELZE AND JOCHEN
R. GOLECKI SUMMARY 259 I. INTRODUCTION 260 II. ULTRASTRUCTURE 260 III.
CHEMICAL COMPOSITION 264 IV. SUPRAMOLECULAR ORGANIZATION OF CHLOROSOMES
267 V. DEVELOPMENT OF THE PHOTOSYNTHETIC APPARATUS 268 VI. OPEN
QUESTIONS 274 ACKNOWLEDGMENTS 275 REFERENCES 275 14 ORGANIZATION OF
ELECTRON TRANSFER COMPONENTS AND SUPERCOMPLEXES 279-295 ANDRE VERMEGLIO,
PIERRE JOLIOT AND ANNE JOLIOT SUMMARY 279 I. INTRODUCTION 280 II. THE
VERSATILE METABOLISM OF THE RHODOSPIRILLACEAE 281 ILL. REGULATION OF THE
BIOSYNTHESIS OF THE ELECTRON TRANSFER COMPONENTS 282 IV. SHORT TERM
INTERACTIONS BETWEEN PHOTOSYNTHETIC AND RESPIRATORY ACTIVITIES 284 V.
ORGANIZATION OF THE ELECTRON CARRIER PROTEINS INTO SUPERCOMPLEXES 287
REFERENCES 292 PART IV: ANTENNA STRUCTURE AND FUNCTION 15 THEORY OF
ELECTRONIC ENERGY TRANSFER 297-313 WALTER S. STRUVE SUMMARY 297 I.
INTRODUCTION 298 II. THE WEAK COUPLING LIMIT 298 III. UNIFIED THEORY FOR
ENERGY TRANSFER 303 IV. TEMPERATURE DEPENDENCE OF ENERGY TRANSFER 309
ACKNOWLEDGMENTS 312 REFERENCES 312 VIN 16 STRUCTURE AND ORGANIZATION OF
PURPLE BACTERIAL ANTENNA COMPLEXES 315-348 HERBERT ZUBER AND RICHARD J.
COGDELL SUMMARY 316 I. STRUCTURE AND FUNCTION OF ANTENNA COMPLEXES FROM
PURPLE BACTERIA "" 316 II. STRUCTURE AND FUNCTION OF ANTENNA
POLYPEPTIDES FROM PURPLE BACTERIA. GENERAL ASPECTS 320 III. AMINO ACID
SEQUENCES (PRIMARY STRUCTURE) OF ANTENNA POLYPEPTIDES. SEQUENCE
HOMOLOGIES, STRUCTURAL AND FUNCTIONAL FEATURES 321 IV. STRUCTURAL AND
FUNCTIONAL VARIABILITY OF THE ANTENNA POLYPEPTIDES AND PIGMENTS WITHIN
THE ANTENNA COMPLEX 328 V. POSSIBLE STRUCTURAL ORGANIZATION OF
POLYPEPTIDES AND BCHL MOLECULES IN THE ANTENNA COMPLEX DERIVED FROM
PRIMARY STRUCTURE DATA (PRIMARY STRUCTURE MODELS): CONSIDERATIONS ON THE
THREE-DIMENSIONAL STRUCTURE OF ANTENNA COMPLEXES 331 NOTE ADDED IN PROOF
342 ACKNOWLEDGMENTS 344 REFERENCES 344 17 KINETICS OF EXCITATION
TRANSFER AND TRAPPING IN PURPLE BACTERIA 349-372 VILLY SUNDSTROM AND
RIENK VAN GRONDELLE SUMMARY 349 I. INTRODUCTION 350 II. PIGMENT-PROTEIN
ORGANIZATION IN LH1 AND LH2 350 III. SPECTROSCOPY OF THE LH1 AND LH2
LIGHT-HARVESTING ANTENNAE 352 IV. ENERGY TRANSFER IN LH2-LESS PURPLE
BACTERIA 356 V. ENERGY TRANSFER IN LH2-CONTAINING PURPLE BACTERIA 361
VI. ENERGY TRANSFER IN ISOLATED LIGHT-HARVESTING COMPLEXES AND MUTANTS
363 REFERENCES 366 18 SINGLET ENERGY TRANSFER FROM CAROTENOIDS TO
BACTERIOCHLOROPHYLLS 373-384 HARRY A. FRANK AND RONALD L. CHRISTENSEN \
SUMMARY 373 I. INTRODUCTION 374 II. THE ELECTRONIC STRUCTURE OF
CAROTENOID EXCITED STATES 374 III. THE DYNAMICS OF CAROTENOID EXCITED
STATES 378 IV. IMPLICATIONS FOR ENERGY TRANSFER 380 ACKNOWLEDGMENTS 381
REFERENCES 382 19 COUPLING OF ANTENNAS TO REACTION CENTERS 385-398 ARVI
FREIBERG SUMMARY 385 I. INTRODUCTION 386 II. THE CONCEPT OF A
PHOTOSYNTHETIC UNIT , 386 III. STRUCTURE AND ORGANIZATION OF REAL
PHOTOSYNTHETIC SYSTEMS 387 IV. TRAPPING OF ENERGY BY THE REACTION CENTER
388 V. DETRAPPING OF EXCITATION ENERGY FROM THE REACTION CENTER 391 VI.
PIGMENT-PROTEIN COUPLINGS ACCORDING TO HIGH HYDROSTATIC PRESSURE STUDIES
393 VII. CONCLUDING REMARKS 395 ACKNOWLEDGMENTS 396 REFERENCES 396 IX 20
ANTENNA COMPLEXES FROM GREEN PHOTOSYNTHETIC BACTERIA 399-435 ROBERT E.
BLANKENSHIP, JOHN M. OLSON AND METTE MILLER SUMMARY 400 I. INTRODUCTION
" 400 II. CHLOROSOME COMPOSITION 401 III. IN VITRO AGGREGATES OF
CHLOROSOME CHLOROPHYLLS 408 IV. SPECTROSCOPIC PROBES OF CHLOROSOME
STRUCTURE 410 V. STRUCTURAL MODELS FOR PIGMENT AND PROTEIN ORGANIZATION
IN CHLOROSOMES 413 VI. KINETICS AND PATHWAYS OF ENERGY TRANSFER IN
CHLOROSOMES 418 VII. THE FENNA-MATTHEWS-OLSON (FMO) BACTERIOCHLOROPHYLL
A PROTEIN 422 VIII. REDOX MODULATION OF ENERGY TRANSFER IN GREEN
PHOTOSYNTHETIC BACTERIA 426 IX. EVOLUTIONARY CONSIDERATIONS 427
ACKNOWLEDGMENTS 428 REFERENCES 428 21 STRUCTURE-FUNCTION RELATIONSHIPS
IN CORE LIGHT-HARVESTING COMPLEXES (LHI) AS DETERMINED BY
CHARACTERIZATION OF THE STRUCTURAL SUBUNIT AND BY RECONSTITUTION
EXPERIMENTS 437-471 PAUL A. LOACH AND PAMELA S. PARKES-LOACH SUMMARY 438
I. INTRODUCTION 439 II. THE STRUCTURAL SUBUNIT OF LHI 440 III.
RECONSTITUTION OF SUBUNIT COMPLEXES AND LHI FROM SEPARATELY-ISOLATED
COMPONENTS 449 IV. PROBING THE BCHL BINDING SITE BY RECONSTITUTION WITH
BCHL ANALOGS 452 V. RECONSTITUTION OF CAR TO FORM WILD-TYPE LHI WITH
BCHL A AND POLYPEPTIDES OF RB. SPHAEROIDES AND RS. RUBRUM 454 VI.
RECONSTITUTION OF LHI-TYPE COMPLEXES USING MIXED POLYPEPTIDES 456 VII.
PROBING STRUCTURAL REQUIREMENTS FOR FORMATION OF THE SUBUNIT COMPLEX AND
LHI BY RECONSTITUTION WITH MODIFIED POLYPEPTIDES 457 VIII. ANALYSIS OF
STABILIZING INTERACTIONS IN SUBUNIT COMPLEXES 459 IX. ANALYSIS OF
STABILIZING INTERACTIONS IN LHI 460 X. IMPLICATIONS FOR THE STRUCTURE OF
THE SUBUNIT COMPLEXES 461 XI. MINIMAL STRUCTURAL REQUIREMENTS TO FORM
LHI 464 XII. INTERACTION OF LHI WITH RC . 466 ACKNOWLEDGMENTS 467
REFERENCES 467 22 GENETIC MANIPULATION OF THE ANTENNA COMPLEXES OF
PURPLE BACTERIA 473-501 C. NEIL HUNTER SUMMARY 473 I. INTRODUCTION 474
II. THE EFFECT OF GENETIC ALTERATION OF ANTENNAS ON THE MORPHOLOGY OF
INTRACYTOPLASMIC MEMBRANES 478 III. THE USE OF LH1-ONLY AND LH1-RC
MUTANTS TO FACILITATE BIOCHEMICAL AND STRUCTURAL , STUDIES 478 IV. THE
USE OF ANTENNA MUTANTS TO SIMPLIFY SPECTROSCOPIC STUDIES OF ANTENNA
COMPLEXES IN A MEMBRANE ENVIRONMENT 480 V. SITE-DIRECTED MUTAGENESIS OF
BACTERIAL LIGHT HARVESTING COMPLEXES 487 VI. HETEROLOGOUS EXPRESSION OF
LH GENES IN RHODOBACTER SPHAEROIDES 495 VII. CONCLUDING REMARKS 495
REFERENCES 496 PART V: REACTION CENTER STRUCTURE, ELECTRON AND PROTON
TRANSFER PATHWAYS 23 THE STRUCTURES OF PHOTOSYNTHETIC REACTION CENTERS
FROM PURPLE BACTERIA AS REVEALED BY X-RAY CRYSTALLOGRAPHY 503-526 C. ROY
D. LANCASTER, ULRICH ERMLER AND HARTMUT MICHEL SUMMARY 503 I.
INTRODUCTION 504 II. STRUCTURAL AND FUNCTIONAL OVERVIEW 505 III.
ARRANGEMENT OF THE COFACTORS 506 IV. THE STRUCTURE OF THE PROTEIN
SUBUNITS 508 V. COFACTOR CONFORMATION AND PROTEIN-COFACTOR INTERACTIONS
512 VI. THE STRUCTURE OF MUTANT REACTION CENTERS 521 VII. CONCLUSIONS
523 REFERENCES 523 24 THE PATHWAY, KINETICS AND THERMODYNAMICS OF
ELECTRON TRANSFER IN WILD TYPE AND MUTANT REACTION CENTERS OF PURPLE
NONSULFUR BACTERIA 527-557 NEAL W. WOODBURY AND JAMES P. ALLEN SUMMARY
528 I. INTRODUCTION 528 II. THE REACTION CENTER OF RHODOBACTER
SPHAEROIDES 529 III. REACTION CENTER MUTANTS 531 IV. THE GROUND STATE
OPTICAL SPECTRUM OF REACTION CENTERS 532 V. THE SPECTRAL AND KINETIC
PROPERTIES OF P* 533 VI. THE STATE P + 538 VII. THE PRODUCT OF INITIAL
CHARGE SEPARATION 540 VIII. ELECTRON TRANSFER TO THE PRIMARY QUINONE 542
IX. ELECTRON TRANSFER FROM THE PRIMARY TO SECONDARY QUINONE 543 X. THE
THERMODYNAMICS OF REACTION CENTER ELECTRON TRANSFER \ 543 XI. REACTION
CENTER SYMMETRY AND THE DIRECTION OF ELECTRON TRANSFER 545 XII. THE
PATHWAY AND MECHANISM OF INITIAL ELECTRON TRANSFER 547 XIII. THE ROLE OF
THE REACTION CENTER PROTEIN IN ELECTRON TRANSFER 551 ACKNOWLEDGMENTS 552
REFERENCES 552 25 THEORETICAL ANALYSES OF ELECTRON-TRANSFER REACTIONS
559-575 WILLIAM W. PARSON AND ARIEH WARSHEL SUMMARY 559 I. INTRODUCTION
560 II. PHENOMENOLOGICAL DESCRIPTIONS OF ELECTRON-TRANSFER REACTIONS 562
III. MICROSCOPIC CALCULATIONS OF ELECTRON-TRANSFER PARAMETERS 564
ACKNOWLEDGMENTS 572 REFERENCES 572 XI 26 PROTON-COUPLED ELECTRON
TRANSFER REACTIONS OF Q B IN REACTION CENTERS FROM PHOTOSYNTHETIC
BACTERIA 577-594 M. Y. OKAMURA AND G. FEHER SUMMARY 577 I. INTRODUCTION
578 II. STRUCTURE OF THE BACTERIAL REACTION CENTER NEAR THE Q B SITE 579
III. THE QUINONE REDUCTION CYCLE 580 IV. PROPERTIES OF THE QUINONES 581
V. EFFECTS OF SITE-DIRECTED MUTAGENESIS ON ELECTRON AND PROTON TRANSFER
RATES 583 VI. MECHANISM OF PROTON COUPLED ELECTRON TRANSFER 587 VII.
PATHWAYS FOR PROTON TRANSFER 589 NOTE ADDED IN PROOF 590
ACKNOWLEDGEMENTS 590 REFERENCES 590 27 THE RECOMBINATION DYNAMICS OF THE
RADICAL PAIR P + H~ IN EXTERNAL MAGNETIC AND ELECTRIC FIELDS 595-626
MARTIN VOLK, ALEXANDER OGRODNIK AND MARIA-ELISABETH MICHEL-BEYERLE
SUMMARY 596 I. THE MAGNETIC FIELD EFFECT 596 II. TEMPERATURE DEPENDENT
RECOMBINATION DYNAMICS OF P + H~ IN NATIVE RCS OF VARIOUS PHOTOSYNTHETIC
BACTERIA 598 III. THE EFFECT OF GENETIC MUTATIONS ON THE RECOMBINATION
DYNAMICS OF P + H~ 611 IV. RECOMBINATION DYNAMICS OF P + H" IN AN
EXTERNAL ELECTRIC FIELD 612 V. OBSERVATION OF THE RECOMBINATION DYNAMICS
OF P + H~ IN DELAYED FLUORESCENCE: EVIDENCE FOR AN ENERGETIC
INHOMOGENEITY OF P + H~ 615 VI. RECOMBINATION DYNAMICS AS A UNIQUE
DIAGNOSTIC TOOL: CONCLUSIONS 618 ACKNOWLEDGMENTS 621 REFERENCES 621 28
INFRARED VIBRATIONAL SPECTROSCOPY OF REACTION CENTERS 627-647 WERNER
MANTELE SUMMARY 627 I. INTRODUCTION: WHAT CAN WE LEARN ABOUT REACTION
CENTERS FROM INFRARED SPECTROSCOPY? 628 II. TECHNICAL ASPECTS OF
INFRARED SPECTROSCOPY OF REACTION CENTERS 628 III. FROM BANDS TO BONDS:
STRATEGIES FOR BAND ASSIGNMENTS 631 IV. LIGHT-INDUCED DIFFERENCE
SPECTROSCOPY OF CHARGE SEPARATION IN REACTION CENTERS 632 V.
ELECTROCHEMICALLY-LNDUCED FTIR DIFFERENCE SPECTRA 634 VI. VIBRATIONAL
MODES OF THE QUINONES AND THEIR HOST SITES 635 VII. RC-ASSOCIATED
CYTOCHROMES 642 VIII. CONCLUSIONS 643 ACKNOWLEDGMENTS 643 REFERENCES 644
XLL 29 BACTERIAL REACTION CENTERS WITH MODIFIED TETRAPYRROLE
CHROMOPHORES 649-663 HUGO SCHEER AND GERHARD HARTWICH SUMMARY 649 I.
INTRODUCTION 650 II. SELECTIVITY OF THE EXCHANGE 650 III. STATIC
SPECTROSCOPY OF REACTION CENTERS WITH MODIFIED PIGMENTS 655 IV.
STABILIZATION 658 V. TIME-RESOLVED SPECTROSCOPY 658 VI. OPEN PROBLEMS
AND OUTLOOK 659 APPENDIX: UPDATED PROCEDURE FOR PIGMENT EXCHANGE 659
ACKNOWLEDGMENTS 660 REFERENCES 660 30 THE REACTION CENTER FROM GREEN
SULFUR BACTERIA 665-685 UTE FEILER AND GUNTER HAUSKA SUMMARY 666 I.
INTRODUCTION 666 II. COMPOSITION OF THE REACTION CENTER 667 III.
ELECTRON TRANSFER WITHIN THE REACTION CENTER 670 IV. GENES ENCODING
REACTION CENTER PROTEINS 675 V. COMPARISON WITH OTHER REACTION CENTERS
678 VI. CONCLUSIONS 681 ACKNOWLEDGMENTS 681 REFERENCES 682 31 THE
ANTENNA-REACTION CENTER COMPLEX OF HELIOBACTERIA 687-697 JAN AMESZ
SUMMARY 687 I. INTRODUCTION \ 688 II. PIGMENTS AND SPECTRAL PROPERTIES
688 III. THE PRIMARY ELECTRON DONOR AND THE ANTENNA-REACTION CENTER
COMPLEX 689 IV. THE PRIMARY CHARGE SEPARATION 691 V. TRANSFER AND
TRAPPING OF EXCITATION ENERGY 692 VI. SECONDARY ELECTRON TRANSPORT 693
VII. CONCLUDING REMARKS 694 REFERENCES 695 32 BIOCHEMICAL AND
SPECTROSCOPIC PROPERTIES OF THE REACTION CENTER OF THE GREEN FILAMENTOUS
BACTERIUM, CHLOROFLEXUS AURANTIACUS 699-708 REINER FEICK, JUDITH A.
SHIOZAWA AND ANGELIKA ERTLMAIER SUMMARY 699 I. INTRODUCTION 700 II.
BIOCHEMICAL COMPOSITION OF THE CHLOROFLEXUS AURANTIACUS REACTION CENTER
700 III. STRUCTURE-FUNCTION RELATIONSHIPS OF THE RC COMPLEX 702 IV. THE
PRIMARY PHOTOCHEMISTRY 704 V. SUMMARY AND CONCLUSIONS 706
ACKNOWLEDGMENTS 706 REFERENCES 706 XM PART VI: CYCLIC ELECTRON TRANSFER
COMPONENTS AND ENERGY COUPLING REACTIONS 33 CYTOCHROME BIOGENESIS
709-723 ROBERT G. KRANZ AND DIANA L. BECKMAN SUMMARY 709 I.
INTRODUCTION: TOPOLOGICAL AND BIOSYNTHETIC DISTINCTIONS AMONG
CYTOCHROMES 710 II. TRANSPORT OF APOCYTOCHROMES TO THE APPROPRIATE
SUBCELLULAR LOCATIONS 711 III. COMPONENTS REQUIRED SPECIFICALLY FOR
CYTOCHROME C BIOGENESIS 712 IV. SYNTHESIS OF C-TYPE CYTOCHROMES IN OTHER
BACTERIA AND IN EUKARYOTES: ANALOGOUS COMPONENTS 717 V. FUTURE
DIRECTIONS 721 ACKNOWLEDGMENTS 721 REFERENCES 721 34 CYTOCHROMES,
IRON-SULFUR, AND COPPER PROTEINS MEDIATING ELECTRON TRANSFER FROM THE
CYT BE. COMPLEX TO PHOTOSYNTHETIC REACTION CENTER COMPLEXES 725-745 T.
E. MEYER AND TIMOTHY J. DONOHUE SUMMARY 726 I. INTRODUCTION 726 II. WHAT
PROTEINS PARTICIPATE IN LIGHT-DEPENDENT REACTION CENTER REDUCTION? 730
III. HOW DO ELECTRON DONORS INTERACT WITH MEMBRANE-BOUND REDOX
COMPLEXES? 734 IV. WHAT INSIGHTS HAS GENETICS PROVIDED ABOUT ELECTRON
DONORS TO REACTION CENTER COMPLEXES? 736 V. FUTURE PERSPECTIVES 740
ACKNOWLEDGMENTS 741 REFERENCES 741 35 MUTATIONAL STUDIES OF THE
CYTOCHROME BE, COMPLEXES \ 747-774 KEVIN A. GRAY AND FEVZI DALDAL
SUMMARY . 747 I. CYTOCHROME TOE, COMPLEX 748 II. MUTATIONAL APPROACHES
759 III. CONCLUSIONS AND PERSPECTIVES 767 ACKNOWLEDGMENTS 768 REFERENCES
769 36 REACTION CENTER ASSOCIATED CYTOCHROMES 775-805 WOLFGANG NITSCHKE
AND STELLA M. DRACHEVA SUMMARY 776 I. INTRODUCTION 776 II. A BRIEF
HISTORY OF REACTION CENTER ASSOCIATED CYTOCHROMES 777 III. TETRAHEME
CYTOCHROME SUBUNITS 782 IV. NATURE OF RC ASSOCIATED CYTOCHROMES IN
PHOTOSYNTHETIC EUBACTERIA 797 V. SOME CONSIDERATIONS WITH RESPECT TO
EVOLUTION 799 ACKNOWLEDGMENTS 800 REFERENCES 800 XIV 37 THE
PROTON-TRANSLOCATING F 0 F 1 ATP SYNTHASE-ATPASE COMPLEX 807-830 ZIPPORA
GROMET-ELHANAN SUMMARY 807 I. INTRODUCTION 808 II. THE F 0 F, COMPLEX
809 III. THEF,-ATPASE 815 IV. MECHANISM OF ACTION OF THE F 0 F 1 ATP
SYNTHASE 824 ACKNOWLEDGMENTS 825 REFERENCES 825 38 PROTON-TRANSLOCATING
TRANSHYDROGENASE AND NADH DEHYDROGENASE IN ANOXYGENIC PHOTOSYNTHETIC
BACTERIA 831-845 J. BAZ JACKSON SUMMARY 831 I. INTRODUCTION 832 II. THE
STRUCTURE OF TRANSHYDROGENASE 833 III. BIOENERGETICS AND KINETICS OF
TRANSHYDROGENASE 835 IV. STRUCTURE OF NADH DEHYDROGENASE 837 V.
INTEGRATION OF NADH DEHYDROGENASE AND TRANSHYDROGENASE IN METABOLISM 838
VI. CONCLUDING REMARKS 841 REFERENCES 841 PART VII: METABOLIC PROCESSES
39 SULFUR COMPOUNDS AS PHOTOSYNTHETIC ELECTRON DONORS 847-870 DANIEL C.
BRUNE SUMMARY , 847 I. INTRODUCTION \ 848 II. TYPES OF ANOXYGENIC
PHOTOTROPHS AND THEIR SULFUR-OXIDIZING CAPABILITIES 849 III. ELECTRON
TRANSPORT IN PURPLE AND GREEN SULFUR BACTERIA 854 IV. PATHWAYS OF
SULFIDE AND THIOSULFATE OXIDATION AND CATALYTIC ENZYMES 856 V.
CONSIDERATIONS FOR FUTURE RESEARCH 864 ACKNOWLEDGMENTS 865 REFERENCES
865 40 CARBON METABOLISM IN GREEN BACTERIA 871-883 REIDUN SIREVAG
SUMMARY 871 I. INTRODUCTION 872 II. MECHANISMS OF AUTOTROPHIC CARBON
DIOXIDE ASSIMILATION 872 III. THE ASSIMILATION OF ORGANIC CARBON 876 IV.
CARBON CONTAINING RESERVE MATERIALS AND ENDOGENOUS METABOLISM 878 VI.
EVOLUTION OF METABOLIC PATHWAYS INVOLVED IN CARBON METABOLISM OF GREEN
BACTERIA 879 REFERENCES 881 XV 41 THE BIOCHEMISTRY AND METABOLIC
REGULATION OF CARBON METABOLISM AND CO 2 FIXATION IN PURPLE BACTERIA
885-914 F. ROBERT TABITA SUMMARY 885 I. INTRODUCTION 886 II. CENTRAL
PATHWAYS FOR ORGANIC CARBON METABOLISM 886 III. CALVIN REDUCTIVE PENTOSE
PHOSPHATE PATHWAY 891 IV. ALTERNATIVE CO 2 ASSIMILATORY ROUTES 906 V.
CONCLUSIONS 908 ACKNOWLEDGMENTS 908 REFERENCES 908 42 MICROBIOLOGY OF
NITROGEN FIXATION BY ANOXYGENIC PHOTOSYNTHETIC BACTERIA 915-928 MICHAEL
T. MADIGAN SUMMARY 915 I. BACKGROUND 916 II. NITROGEN FIXATION BY PURPLE
AND GREEN BACTERIA 918 III. PHOTOTROPHIC RHIZOBIA AND OTHER
BACTERIOCHLOROPHYLL A-CONTAINING SPECIES 923 IV. ECOLOGICAL ASPECTS OF N
2 FIXATION BY ANOXYGENIC PHOTOSYNTHETIC BACTERIA 924 V. CONCLUDING
REMARKS 925 ACKNOWLEDGMENTS 925 REFERENCES 925 43 THE BIOCHEMISTRY AND
GENETICS OF NITROGEN FIXATION BY PHOTOSYNTHETIC BACTERIA 929-947 PAUL W.
LUDDEN AND GARY P. ROBERTS SUMMARY 929 I. BACKGROUND AND HISTORICAL
INTRODUCTION 930 II. REGULATION OF NITROGENASE BY REVERSIBLE
ADP-RIBOSYLATION 935 ACKNOWLEDGMENTS 943 REFERENCES 944 44 AEROBIC AND
ANAEROBIC ELECTRON TRANSPORT CHAINS IN ANOXYGENIC PHOTOTROPHIC BACTERIA
949-971 DAVIDE ZANNONI SUMMARY 949 I. INTRODUCTION 950 II. DARK AEROBIC
ELECTRON TRANSPORT CHAINS 951 III. DARK ANAEROBIC ELECTRON TRANSPORT
CHAINS 960 ACKNOWLEDGMENTS 964 REFERENCES 964 45 STORAGE PRODUCTS IN
PURPLE AND GREEN SULFUR BACTERIA 973-990 JORDI MAS AND HANS VAN GEMERDEN
SUMMARY 973 I. GENERAL CHARACTERISTICS OF THE STORAGE INCLUSIONS OF
PHOTOTROPHIC SULFUR BACTERIA 974 II. ENVIRONMENTAL CONDITIONS LEADING TO
THE ACCUMULATION OF STORAGE COMPOUNDS 979 XVI III. PHYSIOLOGICAL ROLE OF
STORAGE COMPOUNDS 980 IV. STORAGE COMPOUNDS IN NATURAL POPULATIONS OF
PHOTOTROPHIC SULFUR BACTERIA 983 V. PHYSICAL CONSEQUENCES OF THE
ACCUMULATION OF STORAGE COMPOUNDS 984 VI. CONCLUDING REMARKS 987
ACKNOWLEDGMENT 988 REFERENCES 988 46 DEGRADATION OF AROMATIC COMPOUNDS
BY NONSULF UR PURPLE BACTERIA 991-1003 JANE GIBSON AND CAROLINE S.
HARWOOD SUMMARY 991 I. INTRODUCTION 992 II. PHYSIOLOGY 992 III.
BIOCHEMISTRY 993 III. REGULATION AND GENETICS 999 V. ECOLOGY 1001 VI.
COMPARATIVE ASPECTS " 1001 ACKNOWLEDGMENTS 1001 REFERENCES 1002 47
FLAGELLATE MOTILITY, BEHAVIORAL RESPONSES AND ACTIVE TRANSPORT IN PURPLE
NON-SULFUR BACTERIA 1005-1028 JUDITH P. ARMITAGE, DAVID J. KELLY AND R.
ELIZABETH SOCKETT SUMMARY 1006 I. INTRODUCTION 1006 II. MOTILITY AND
BEHAVIOR 1007 III. SOLUTE TRANSPORT 1018 IV. FUTURE PERSPECTIVE 1024
ACKNOWLEDGMENTS 1025 REFERENCES 1025 PART VIII: GENETICS AND GENETIC
MANIPULATIONS 48 GENETIC MANIPULATION OF PURPLE PHOTOSYNTHETIC BACTERIA
1029-1065 JOANN C. WILLIAMS AND AILEEN K. W. TAGUCHI SUMMARY 1030 I.
INTRODUCTION 1030 II. GENETIC MANIPULATION 1030 III. GENE MAPPING 1033
IV. GENE CLONING AND SEQUENCING 1035 V. MUTAGENESIS 1043 VI. GENE
EXPRESSION 1048 VII. CONCLUSIONS 1051 ACKNOWLEDGMENTS 1051 REFERENCES
1051 XVN 49 PHYSICAL MAPPING OF RHODOBAETER CAPSULATUS: COSMID
ENCYCLOPEDIA AND HIGH RESOLUTION GENETIC MAP 1067-1081 MICHAEL FONSTEIN
AND ROBERT HASELKORN SUMMARY 1067 I. INTRODUCTION 1068 II. LOW
RESOLUTION PHYSICAL MAPPING OF THE GENOME OF RHODOBAETER CAPSULATUS 1068
III. HIGH RESOLUTION PHYSICAL MAPPING 1075 IV. COMPARISON WITH THE
EXISTING GENETIC MAP 1075 V. COMPARISON OF THE CHROMOSOMAL MAPS OF
DIFFERENT RHODOBAETER STRAINS 1075 VI. POSSIBLE APPLICATIONS OF THE
MINIMAL COSMID SET OF RHODOBACTER CAPSULATUS SB~\ 003 1078
ACKNOWLEDGMENT 1078 NOTE ADDED IN PROOF 1079 REFERENCES 1079 50
STRUCTURE AND SEQUENCE OF THE PHOTOSYNTHESIS GENE CLUSTER 1083-1106
MARIE ALBERT!, DONALD H. BURKE AND JOHN E. HEARST SUMMARY 1083 I.
INTRODUCTION 1084 II. BIOSYNTHETIC PATHWAYS 1084 III. THE GENETIC MAP
1088 IV. FUNCTIONAL ASSIGNMENTS OF THE OPEN READING FRAMES (ORFS) IN THE
SEQUENCE 1090 V. POTENTIAL REGULATORY SEQUENCES 1096 VI. CONCLUSION 1101
ACKNOWLEDGMENTS 1102 REFERENCES 1103 51 GENETIC ANALYSIS OF CO 2
FIXATION GENES 1107-1124 JANET LEE GIBSON SUMMARY * 1108 I. INTRODUCTION
1108 II. EBB GENES 1109 III. REGULATION OF EBB GENE EXPRESSION . 1113
IV. MUTATIONAL ANALYSIS 1115 V. TRANSCRIPTIONAL REGULATORY GENES 1116
VI. EXPRESSION OF EBB GENES IN HETEROLOGOUS SYSTEMS * 1119 VII.
CONCLUSIONS 1121 ACKNOWLEDGMENTS 1121 REFERENCES 1122 52 GENETIC
ANALYSIS AND REGULATION OF BACTERIOCHLOROPHYLL BIOSYNTHESIS 1125-1134
ALANJ. BIEL SUMMARY 1125 I. INTRODUCTION 1126 II. GENETICS OF
PROTOPORPHYRIN BIOSYNTHESIS 1126 III. REGULATION OF BCHL BIOSYNTHESIS
1128 IV. CONCLUSIONS 1131 REFERENCES 1132 XVIN 53 GENETIC ANALYSIS AND
REGULATION OF CAROTENOID BIOSYNTHESIS: STRUCTURE AND FUNCTION OF THE CRT
GENES AND GENE PRODUCTS 1135-1157 GREGORY A. ARMSTRONG SUMMARY 1136 I.
INTRODUCTION 1136 II. EARLY DEVELOPMENTS IN THE GENETICS OF CAROTENOID
BIOSYNTHESIS 1137 III. MAPPING, CLONING AND SEQUENCING OF CAROTENOID
BIOSYNTHESIS GENES 1137 IV. REGULATION OF CAROTENOID BIOSYNTHESIS 1143
V. FUNCTIONAL AND STRUCTURAL CONSERVATION OF THE CRT GENE PRODUCTS 1148
VI. PERSPECTIVES FOR THE FUTURE 1153 ACKNOWLEDGMENTS 1154 REFERENCES
1154 54 A FOUNDATION FOR THE GENETIC ANALYSIS OF GREEN SULFUR, GREEN
FILAMENTOUS AND HELIOBACTERIA 1159-1173 JUDITH A. SHIOZAWA SUMMARY 1159
I. SOME RELEVANT PHYSIOLOGICAL AND BIOCHEMICAL CHARACTERISTICS 1160 II.
THE GENOME 1161 III. GENETIC MANIPULATION 1170 IV. CONCLUDING REMARKS
1170 ACKNOWLEDGMENTS 1171 REFERENCES 1171 PART IX: REGULATION OF GENE
EXPRESSION 55 REGULATION OF HYDROGENASE GENE EXPRESSION 1175-1190
PAULETTE M. VIGNAIS, BERTRAND TOUSSAINT AND ANNETTE COLBEAU" SUMMARY
1175 I. INTRODUCTION 1176 II. HYDROGENASES OF PHOTOSYNTHETIC BACTERIA
BELONG TO THE CLASS OF [NIFE]HYDROGENASES 1178 III. REGULATION OF
HYDROGENASE GENES 1180 IV. CONCLUSIONS AND PERSPECTIVES 1185
ACKNOWLEDGMENTS 1186 REFERENCES 1186 56 REGULATION OF NITROGEN FIXATION
GENES 1191-1208 ROBERT G. KRANZ AND PAUL J. CULLEN SUMMARY 1191 I.
INTRODUCTION: NITROGEN FIXATION (NIF) GENES; TRANSCRIPTIONAL CONTROL BY
FIXED NITROGEN AND OXYGEN 1192 II. GENERAL MODELS DESCRIBING NIF
REGULATORY MECHANISMS 1193 III. REGULATORY COMPONENTS RELATED TO OTHER
BACTERIAL PROTEINS 1195 IV. REGULATORY COMPONENTS UNIQUE TO ANOXYGENIC
PHOTOTROPHS (OR ARE THEY)? 1201 V. THE ALTERNATIVE NITROGEN FIXING
SYSTEMS: ASPECTS CONCERNING GENE REGULATION 1204 VI. FUTURE STUDIES AND
PERSPECTIVES 1204 ACKNOWLEDGMENTS 1205 REFERENCES 1205 XIX 57
ORGANIZATION OF PHOTOSYNTHESIS GENE TRANSCRIPTS 1209-1219 J. THOMAS
BEATTY SUMMARY - 1210 I. INTRODUCTION 1210 II. TRANSCRIPTS OF RB.
CAPSULATUS PHOTOSYNTHESIS GENES 1211 III. TRANSCRIPTS OF RB. SPHAEROIDES
PHOTOSYNTHESIS GENES 1214 IV. TRANSCRIPTS OF RHODOSPIRILLUM RUBRUM
PHOTOSYNTHESIS GENES 1215 V. TRANSCRIPTS OF RHODOPSEUDOMONAS VIRIDIS
PHOTOSYNTHESIS GENES 1215 VI. TRANSCRIPTS OF RUBRIVIVAXGELANTINOSUS
PHOTOSYNTHESIS GENES 1215 VII. TRANSCRIPTS OF CHLOROFLEXUS AURANTIACUS
PHOTOSYNTHESIS GENES 1216 VIII. PROSPECTS FOR THE FUTURE AND CONCLUDING
REMARKS 1216 ACKNOWLEDGMENTS 1217 REFERENCES 1217 58 REGULATION OF
PHOTOSYNTHESIS GENE EXPRESSION 1221-1234 CARL E. BAUER SUMMARY 1221 I.
INTRODUCTION 1221 II. THE PHOTOSYNTHESIS GENE CLUSTER 1222 III.
C/S-ACTING REGULATORY SITES 1223 IV. FRANS-ACTING REGULATORY CIRCUITS
1227 V. CONCLUDING REMARKS 1231 ACKNOWLEDGMENTS 1231 REFERENCES 1231 59
POST-TRANSCRIPTIONAL CONTROL OF PHOTOSYNTHESIS GENE EXPRESSION 1235-1244
GABRIELE KLUG SUMMARY 1235 I. INTRODUCTION ) 1236 II. CONTROL OF
PHOTOSYNTHESIS GENE EXPRESSION ON THE LEVEL OF MRNA STABILITY 1236 III.
23S RRNA PROCESSING IN RHODOBAETER 1240 IV. EVIDENCE FOR TRANSLATIONAL
OR POST-TRANSLATIONAL REGULATION OF PHOTOSYNTHESIS GENE EXPRESSION 1241
V. CONCLUDING REMARKS 1242 ACKNOWLEDGMENTS . 1242 REFERENCES 1242 PART
X: APPLICATIONS 60 POLYESTERS AND PHOTOSYNTHETIC BACTERIA: FROM LIPID
CELLULAR INCLUSIONS TO MICROBIAL THERMOPLASTICS 1245-1256 R. CLINTON
FULLER SUMMARY 1245 I. INTRODUCTION 1246 II. PHAS AS PROKARYOTIC
INCLUSIONS . 1246 III. OCCURRENCE OF PHAS IN ANOXYGENIC RHOTOTROPHIC
BACTERIA 1248 IV. BIOSYNTHESIS OF PHAS IN RHODOSPIRILLUM RUBRUM 1248 XX
V. REGULATION OF PHA METABOLISM . 1248 VI. POLYMER PRODUCTION AND
MATERIAL PROPERTIES 1250 VII. STRUCTURE AND FUNCTION OF PHA INCLUSIONS
1252 ACKNOWLEDGMENTS 1255 REFERENCES 1255 61 IMAGING SPECTROSCOPY AND
COMBINATORIAL MUTAGENESIS OF THE REACTION CENTER AND LIGHT HARVESTING II
ANTENNA 1257-1268 ELLEN R. GOLDMAN AND DOUGLAS C. YOUVAN SUMMARY 1257 I.
INTRODUCTION 1258 II. THE ROLE OF MUTAGENESIS IN PHOTOSYNTHESIS RESEARCH
1258 III. MASSIVELY PARALLEL SCREENING OF MUTANTS 1261 IV. COMBINATORIAL
CASSETTE MUTANTS 1262 V. CONCLUSIONS AND PROSPECTUS 1266 ACKNOWLEDGMENTS
1267 REFERENCES 1267 62 WASTE REMEDIATION AND TREATMENT USING ANOXYGENIC
PHOTOTROPHIC BACTERIA 1269-1282 MICHIHARU KOBAYASHI AND MICHIHIKO
KOBAYASHI SUMMARY 1269 I. DISTRIBUTION AND INTERRELATIONSHIP WITH OTHER
ORGANISMS 1269 II. GROWTH ACCELERATION BY SYMBIOSIS 1270 III. ECOLOGICAL
VARIATION OF ANOXYGENIC PHOTOTROPHIC BACTERIA IN ORGANIC SEWAGE 1271 IV.
PURIFICATION OF WASTE WATER BY ANOXYGENIC PHOTOTROPHIC BACTERIA 1272 V.
THE USE OF BYPRODUCTS 1272 REFERENCES 1282 INDEX 1283 XXI |
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| genre_facet | Aufsatzsammlung |
| id | DE-604.BV010794675 |
| illustrated | Illustrated |
| indexdate | 2024-11-13T09:03:26Z |
| institution | BVB |
| isbn | 079233681X 0792336828 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-007209697 |
| oclc_num | 32856147 |
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| owner | DE-703 DE-355 DE-BY-UBR DE-634 DE-11 DE-188 |
| owner_facet | DE-703 DE-355 DE-BY-UBR DE-634 DE-11 DE-188 |
| physical | XXIV, 1331 S. graph. Darst. |
| publishDate | 1995 |
| publishDateSearch | 1995 |
| publishDateSort | 1995 |
| publisher | Kluwer Acad. Publ. |
| record_format | marc |
| series | Advances in photosynthesis |
| series2 | Advances in photosynthesis |
| spelling | Anoxygenic photosynthetic bacteria ed. by Robert E. Blankenship ... Dordrecht [u.a.] Kluwer Acad. Publ. 1995 XXIV, 1331 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advances in photosynthesis 2 Anaërobe bacteriën gtt Fotosynthese gtt Anaerobic bacteria Photosynthetic bacteria Aerobe phototrophe Bakterien (DE-588)4214444-9 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Aerobe phototrophe Bakterien (DE-588)4214444-9 s DE-604 Blankenship, Robert E. Sonstige oth Advances in photosynthesis 2 (DE-604)BV010170524 2 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007209697&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Anoxygenic photosynthetic bacteria Advances in photosynthesis Anaërobe bacteriën gtt Fotosynthese gtt Anaerobic bacteria Photosynthetic bacteria Aerobe phototrophe Bakterien (DE-588)4214444-9 gnd |
| subject_GND | (DE-588)4214444-9 (DE-588)4143413-4 |
| title | Anoxygenic photosynthetic bacteria |
| title_auth | Anoxygenic photosynthetic bacteria |
| title_exact_search | Anoxygenic photosynthetic bacteria |
| title_full | Anoxygenic photosynthetic bacteria ed. by Robert E. Blankenship ... |
| title_fullStr | Anoxygenic photosynthetic bacteria ed. by Robert E. Blankenship ... |
| title_full_unstemmed | Anoxygenic photosynthetic bacteria ed. by Robert E. Blankenship ... |
| title_short | Anoxygenic photosynthetic bacteria |
| title_sort | anoxygenic photosynthetic bacteria |
| topic | Anaërobe bacteriën gtt Fotosynthese gtt Anaerobic bacteria Photosynthetic bacteria Aerobe phototrophe Bakterien (DE-588)4214444-9 gnd |
| topic_facet | Anaërobe bacteriën Fotosynthese Anaerobic bacteria Photosynthetic bacteria Aerobe phototrophe Bakterien Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007209697&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV010170524 |
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