Transport in plants: 3 Intracellular interactions and transport processes
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
1976
|
| Schriftenreihe: | Encyclopedia of plant physiology
3 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | VII, 517 S. graph. Darst. |
| ISBN: | 3540078185 0387078185 |
Internformat
MARC
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| 245 | 1 | 0 | |a Transport in plants |n 3 |p Intracellular interactions and transport processes |c ed. by M. H. Zimmermann ... |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 1976 | |
| 300 | |a VII, 517 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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| 490 | 1 | |a Encyclopedia of plant physiology |v N.S., 3 | |
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Datensatz im Suchindex
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|---|---|
| adam_text | Contents
I. Membrane Structure
Plant Membranes
R.H. Falk and C.R. Stocking (With 25 Figures)
1. Introduction........................... 3
2. Isolation of Membranes...................... 3
2.1 Choice of Tissue ....................... 4
2.2 Identification of Specific Membranes .............. 4
2.2.1 Microscopy....................... 4
2.2.2 Histochemical Staining.................. 5
2.2.3 Marker Enzymes..................... 5
2.2.4 Antibodies........................ 8
2.3 Tissue Disruption....................... 8
2.4 Membrane Isolation...................... 9
3. Membrane Composition...................... 10
3.1 Membrane Carbohydrates................... 10
3.2 Membrane Lipids....................... 11
3.3 Membrane Proteins...................... 11
4. Specific Membranes........................ 13
4.1 The Plasmalemma (Plasma Membrane) ............. 13
4.1.1 Morphology....................... 13
4.1.2 Chemical Composition.................. 14
4.2 The Nuclear Envelope..................... 16
4.2.1 Morphology....................... 16
4.2.2 Chemical Composition.................. 17
4.3 Plastid Membranes...................... 19
4.3.1 Morphology....................... 19
4.3.1.1 General...................... 19
4.3.1.2 Proplastids.................... 20
4.3.1.3 Etioplasts..................... 20
4.3.1.4 Amyloplasts.................... 21
4.3.1.5 Chromoplasts................... 21
4.3.1.6 The Higher Plant Chloroplasts............ 21
4.3.2 Chemical Composition of the Chloroplast Envelope...... 22
4.4 Mitochondrial Membranes................... 26
4.4.1 Morphology....................... 26
4.4.2 Chemical Composition.................. 27
4.5 Other Membranes in Plant Cells................. 29
4.5.1 The Microbody Membrane................ 29
X Contents
4.5.2 The Endoplasmic Reticulum Membranes.......... 29
4.5.3 The Golgi Apparatus Membranes.............. 29
4.5.4 The Vacuolar Membrane................. 31
4.5.5 The Spherosome Membrane................ 31
5. Membrane Models........................ 31
5.1 The Lipid Bilayer Model.................... 32
5.2 The Unit Membrane Model .................. 32
5.3 Subunit Models........................ 33
5.4 The Lipid-Globular Protein Mosaic Model............ 35
6. Membrane Structure and Solute Transport.............. 37
6.1 Membranes with Hydrophilic Pores............... 37
6.2 Carriers and Ionophores.................... 38
6.3 Bridging Proteins Acting as Channels through Membranes..... 38
References............................. 40
II. Intracelluiar Interactions
1. Interactions between Nucleus and Cytoplasm
J. Brachet (With 7 Figures)
1. Old Theories and Present Ideas about the Biochemical Role of the Cell
Nucleus.............................. 53
2. Experimental Approaches to the Study of Nucleocytoplasmic Interactions 54
2.1 Work on Intact Cells ..................... 54
2.1.1 Autoradiography..................... 54
2.1.2 Studies on Chromatin and DNA in Intact Cells....... 55
2.2 Work on Anucleate Fragments of Unicellular Organisms, Eggs, and
Cells ............................... 56
2.3 Biochemical Work on Isolated Organelles ............ 58
3. Discussion of Some Recent Experimental Results........... 58
3.1 Work on Intact Cells ..................... 58
3.1.1 Autoradiography..................... 58
3.1.2 Role of the Nuclear Membrane in Nucleocytoplasmic Interactions 60
3.1.3 Choice by the Cytoplasm between DNA Replication and Tran-
scription ........................ 62
3.1.4 Effects of the Plasma Membrane on Nuclear Activity..... 63
3.2 Studies on Anucleate Fragments of Unicellular Organisms, Eggs, and
Cells .............................. 64
3.2.1 Acetabularia....................... 64
3.2.1.1 Introduction ................... 64
3.2.1.2 Production and Distribution of Morphogenetic Substances 65
3.2.1.3 Energy Production, Circadian Rhythms ....... 66
3.2.1.4 Chloroplastic and Cytoplasmic Protein Synthesis ... 67
3.2.1.5 Nucleic Acid Synthesis............... 69
3.2.1.6 Cytoplasmic Effects on the Nucleus......... 70
3.2.2 Protozoa........................ 71
3.2.3 Eggs.......................... 73
Contents XI
3.2.3.1 Sea Urchin Eggs..................73
3.2.3.2 Other Eggs....................74
3.2.4 Mammalian Cells.....................75
3.2.4.1 Reticulocytes................... 75
3.2.4.2 Cells Enucleated with Cytochalasin B......... 76
4. Conclusions........................... 77
References............................. 79
2. Plastids and Intracellular Transport
D.A. Walker (With 24 Figures)
1. Introduction ..........................85
2. The Development of the Experimental Study of Metabolite Translocation
in Chloroplasts .........................85
3. Methods............................87
3.1 Distribution in vivo .....................87
3.1.1 Nonaqueous Techniques.................87
3.1.2 Aqueous Separation...................88
3.2 Distribution in vitro .....................88
3.2.1 Centrifugal Filtration..................89
3.2.2 Chromatographic Analysis................89
3.3 Indirect Methods.......................89
3.3.1 Shortening of Induction and Reversal of Orthophosphate In-
hibition ........................ 89
3.3.2 Catalysis by Intact and Ruptured Chloroplasts....... 90
3.3.3 Osmotic Volume Changes................ 92
3.4 Other Aspects of Work with Functional Chloroplasts....... 93
4. The Site of Sucrose Synthesis................... 93
5. Starch Synthesis......................... 95
6. The Stimulation of Starch Synthesis in the Light by Exogenous Sugars 96
7. Starch Prints.......................... 99
8. The Transport of Metabolites and Coenzymes............ 101
9. The Transport of Cycle Intermediates ............... 102
9.1 3-Phosphoglycerate and the Triose Phosphates.......... 102
9.2 Pentose Monophosphates................... 104
9.3 Hexose and Heptose Monophosphates ............. 105
9.4 Sugar Bisphosphates..................... 105
9.4.1 Ribulose-l,5-bisphosphate (RBP).............105
9.4.2 Fructose-1,6-bisphosphate (FBP) and Sedoheptulose-1,7-bisphos-
phate (SBP).......................105
10. Free Sugars...........................106
11. CO2/Bicarbonate ........................106
12. Carboxylic Acids ........................109
12.1 Glycollate and Glyoxylate.................. 109
12.2 Malate and Oxaloacetate................... 109
13. Amino Acids.......................... 109
14. Orthophosphate......................... Ill
15. Inorganic Pyrophosphate..................... 113
XII Contents
16. ADPandATP ......................... 116
16.1 Direct Transfer....................... 116
16.2 The Evidence in Favour of Rapid Direct Transfer........ 117
16.3 The Evidence against Rapid Direct Transfer .......... 118
17. NADP............................. 121
18. Shuttles ............................ 122
18.1 The PGA/DHAP Shuttle................... 122
18.2 The Malate/Oxaloacetate Shuttle............... 123
19. Specific Transport........................ 124
19.1 ATP Transport....................... 124
19.2 Dicarboxylate Transport................... 124
19.3 Phosphate Transport .................... 124
20. The Movement of Metabolites in C4 Photosynthesis......... 125
21. The Movement of Protons and Magnesium............. 126
22. Concluding Remarks....................... 126
References............................. 127
3. Metabolite Carriers of Chloroplasts
H.W. Heldt (With 4 Figures)
1. Specific Transport into the Chloroplast............... 137
2. The Phosphate Translocator.................... 137
3. The Dicarboxylate Translocator .................. 141
4. ATP Transport in Chloroplasts................... 142
References............................. 142
4. Compartmentation and Transport in C4 Photosynthesis
M.D. Hatch and C.B. Osmond (With 7 Figures)
1. Introduction........................... 144
2. Radiotracer Kinetics and Compartments............... 144
3. Inter-and Intracellular Compartmentation of Reactions........ 148
3.1 Methods........................... 148
3.2 Activities of Isolated Mesophyll and Bundle Sheath Cells...... 149
3.3 C4 Pathway Enzymes and Their Intercellular Distribution ..... 151
3.4 Intracellular Location of Enzymes................ 157
3.5 Detailed Schemes for C4 Photosynthesis............. 158
4. Intercellular Transport in C4 Photosynthesis............. 160
4.1 Structural Features of the Mesophyll-Bundle Sheath Cell Interface 161
4.2 Intercellular Transport of Metabolite Solutes........... 161
4.3 Intercellular Transport of CO2 + HCO3: the CO2 Concentrating
Mechanism.......................... 164
4.4 Amino Group and Charge Balance during Intercellular Transport 166
5. Intracellular Transport in C4 Photosynthesis............. 167
5.1 Intracellular Transport in Mesophyll Cells............ 167
5.2 Intracellular Transport in Bundle Sheath Cells .......... 168
5.3 Organelle Infrastructure in Relation to Intracellular Transport . . .170
6. Metabolite Transport in Relation to Chloroplast Photochemical Activities 170
Contents XIII
7. Physiological Function of Compartmentation and Transport in C4 Photo-
synthesis ............................. 174
References............................. 177
5. Interactions among Organelles Involved in Photorespiration
C. Schnarrenberger and H. Fock (With 12 Figures)
1. Introduction........................... 185
2. Methodology........................... 186
2.1 Measurement of Photorespiration................ 186
2.1.1 Definitions....................... 186
2.1.2 CO2 Gas Exchange.................... 187
2.1.3 Estimates of Photorespiration by Leaf Models........ 188
2.1.4 Estimates of Carbon Flux through the Glycolate Pathway ... 190
2.2 Isolation of Leaf Peroxisomes and Other Cell Organelles...... 191
3. Glycolate Metabolism and Its Intracellular Compartmentation..... 193
3.1 Biosynthesis of Glycolate in Chloroplasts............. 193
3.2 The Glycolate Pathway and Peroxisomes............. 197
3.3 The Interconversion of Glycine and Serine in the Mitochondria . . . 200
3.4 Glycerate and Its Relationship to Phosphoglycerate........ 201
4. Glycolate Metabolism in C4-plants, CAM Plants, and Algae...... 202
4.1 Glycolate Metabolism in C4-plants................ 202
4.2 Glycolate Metabolism in CAM Plants.............. 203
4.3 Glycolate Metabolism in Algae................. 203
4.4 Glycolate Metabolism in Blue-Green Algae............ 206
5. The Transport of Metabolites between Cell Organelles during Glycolate
Metabolism ........................... 206
5.1 Transport of Glycolate Pathway Intermediates between Peroxisomes.
Chloroplasts, and Mitochondria................. 206
5.2 Sites of CO2 Evolution and O2 Uptake during Photorespiration . . . 207
5.3 Insignificance of the Glycolate-Glyoxylate Shuttle......... 208
5.4 The Malate-Aspartate Shuttle.................. 209
6. The Magnitude of Photorespiration with Respect to the Glycolate Pathway
Metabolism and Metabolite Transfer................ 211
6.1 Gas Exchange ........................ 211
6.1.1 Effects of Oxygen and Carbon Dioxide........... 211
6.1.2 Effects of Light and Temperature.............. 213
6.1.3 Effects of External Factors on the Gas Exchange of C4-plants 214
6.1.4 The Specific Activity of the 14CO2 Evolved in the Light and in
the Dark........................ 214
6.2 Carbon Flux through the Glycolate Pathway........... 216
6.2.1 C-rplants in Air..................... 217
6.2.2 C3-plants in a Medium with Low Oxygen.......... 220
6.2.3 C4-plants in Normal and Low Oxygen............ 220
6.2.4 Carbon Fluxes and Enzyme Activities............ 220
6.3 The Function of Light Respiration ............... 222
7. Concluding Remarks....................... 223
References............................. 223
XIV Contents
6. Transport of Metabolites between Cytoplasm and the Mitochondrial
Matrix
H.W. Heldt (With 7 Figures)
1. Introduction .......................... 235
2. Structure of Mitochondria .................... 235
3. Functional Organization of Mitochondrial Metabolism........ 236
4. Transport of Adenine Nucleotides................. 238
5. Transport of Inorganic Phosphate................. 242
6. Transport of the Intermediates of the Tricarboxylic Acid Cycle .... 242
7. Transport of Glutamate and Aspartate............... 245
8. Transport of Pyruvate...................... 246
9. Transport of Phosphate and of Carboxylates in Plant Mitochondria . . 246
10. Uptake of Fatty Acids...................... 246
11. Oxidation of Extramitochondrial NADH by Mitochondria...... 248
12. On a Possible Role of Mitochondrial Transport in Lipogenesis .... 250
13. Conclusion........................... 250
References............................. 250
7. Interactions between Cytoplasm and Vacuole
Ph. Matile and A. Wiemken (With 7 Figures)
1. Introduction...........................255
2. Vacuoles as Repositories of Substances ...............257
2.1 The Internal Environment of the Cytoplasm ...........257
2.2 Methods Used for Evaluating Vacuolar Compartmentation of Sub-
stances ............................257
2.2.1 Isolation of Vacuoles...................258
2.2.2 Stepwise Extraction of Cells................258
2.2.3 Indirect Evidence from Isotope Kinetics...........258
2.2.4 Electron Microscopy, Autoradiography, Electron Microprobe 259
2.2.5 Direct Microscopic Observations..............259
2.3 Substances Present in Vacuoles.................260
2.3.1 Metabolic Intermediates.................. 260
2.3.2 Reserve Substances.................... 261
2.3.3 Secondary Product of Metabolism............. 261
2.3.4 Inorganic Substances................... 263
2.4 Mechanisms of Transport in Vacuoles.............. 264
2.4.1 Transport of Ions ....................264
2.4.2 Accumulation of Products of Secondary Metabolism.....266
3. Vacuoles as Digestive Compartments................268
3.1 Hydrolases Localized in Vacuoles................268
3.1.1 Remarks on Methods Employed..............268
3.1.2 Vacuoles as Lysosomes..................269
3.2 Autophagy..........................272
3.2.1 Turnover........................272
3.2.2 Mechanisms of Autophagy.................273
3.2.3 Heterophagy.......................277
3.2.4 Autolysis........................278
3.2.5 Digestive Processes in Plant Development..........279
Contents XV
4. Concluding Remarks....................... 280
References............................. 281
8. Interactions among Cytoplasm, Endomembranes, and the Cell Surface
D.J. Morre and H.H. Mollenhauer (With 15 Figures)
1. Introduction........................... 288
2. Cell Surfaces and Expansion Growth................ 288
3. Role of the Soluble Cytoplasm (Cytosol)............... 289
3.1 Biosynthetic Role of the Cytosol ................ 290
3.2 Guide Elements of the Cytosol................. 291
3.3 Milieu for Biosynthesis and Transformation (Zones of Exclusion) . . 292
4. Role of Internal Membranes.................... 295
4.1 Role in the Biosynthesis, Assembly, Transformation, and Transport
of Membranes ........................ 295
4.1.1 The Endomembrane System................ 297
4.1.2 Membrane Differentiation................. 303
4.1.3 Membrane Flow..................... 304
4.2 Role in the Biosynthesis, Assembly, Transformation, and Transport
of Products for Secretion to the Cell s Exterior.......... 306
4.2.1 Cell Walls........................ 307
4.2.2 Slimes and Mucilages................... 314
4.2.3 Essential Oils...................... 314
4.2.4 Encrusting Materials................... 315
4.2.5 Dilute Secretions Containing Lipids, Sugars, Mucilages, and Salts 315
4.2.6 Digestive Enzymes.................... 315
4.2.7 Water Expulsion..................... 316
4.3 Role in the Biosynthesis, Assembly, Transformation, and Transport
of Products among Internal Compartments............ 316
4.3.1 Vacuoles........................ 317
4.3.2 Vacuole Membranes................... 317
4.3.3 Vacuole Contents..................... 319
5. Role of the Cell Surface...................... 319
5.1 Role of the Plasma Membrane in Cell Wall Formation....... 319
5.2 Plasmodesmata........................ 322
5.3 Role of Cell Walls in Cell Wall Formation............ 322
6. Specializations in the Formation of Plant Cell Surfaces ........ 323
7. Summary ............................ 325
References............................. 326
III. Intracellular Transport in Relation to Energy Conservation
1. Ion Transport and Energy Conservation in Chloroplasts
R.E. McCarty (With 5 Figures)
1. Introduction...........................347
2. Mechanisms of H+ Uptake in Chloroplasts .............348
2.1 H+ Uptake in the Absence of Permeating Electron Donors or Acceptors 349
2.2 H+ Uptake in the Presence of Permeating Electron Donors or Acceptors 354
XVI Contents
3. Counter Ion Fluxes........................ 357
4. The Magnitude of the Electrochemical Gradient ........... 358
4.1 The H+ Concentration Gradient ................ 358
4.2 The Membrane Potential.................... 364
5. Relation of H+ Movements to Phosphorylation............ 365
6. Relation of the Rate of Electron Flow to H+ Movements....... 368
7. Conclusion............................ 370
References............................. 370
2. Ion Transport in Plant Mitochondria
R.H. Wilson and R.J. Graesser (With 2 Figures)
1. Introduction........................... 377
2. Monovalent Salt Transport .................... 378
2.1 Monovalent Cation and Anion Transport in Plant Mitochondria . . 378
2.2 Chemiosmotic Theory of Ion Transport............. 379
2.3 Mechanism of Salt Flux.................... 380
2.4 Monovalent Cation Transport with lonophorous Antibiotics .... 381
2.5 Substrate Transport into Mitochondria.............. 383
3. Divalent Cation Transport..................... 384
3.1 Divalent Cation Transport in Plant Mitochondria......... 384
3.2 Theories of Ca2+ Transport in Animal Mitochondria ....... 387
3.3 Regulation of Ca2+ Flux.................... 389
3.4 Role for Mitochondria in the Transport and Regulation of Ca2+ 391
References............................. 394
3. Energy Transfer between Cell Compartments
H. Strotmann and S. Murakami (With 3 Figures)
1. Introduction........................... 398
2. Exchange of Energy between Mitochondria and Cytoplasm....... 400
3. Exchange of Energy between Chloroplasts and Cytoplasm....... 401
3.1 Evidence for Energy Exchange between Chloroplasts and Cytoplasm 401
3.1.1 Active Uptake of Sugars and Ions............. 401
3.1.2 Transient Changes of Intracellular Adenine Nucleotide Levels 402
3.2 Direct Translocation of Adenine Nucleotides across the Chloroplast
Envelope via Adenine Nucleotide Translocator.......... 403
3.3 Indirect Transport of Energy across the Chloroplast Envelope via Shut-
tle Systems.......................... 405
4. Conclusion............................ 411
References............................. 412
IV. Theory of Membrane Transport
Mass Transport across Membranes
D. Woermann (With 5 Figures)
1. Nonequilibrium Thermodynamics of Membrane Transport.......419
1.1 Introduction.........................419
Contents XVII
1.2 Transport of Nonelectrolytes..................419
1.2.1 Description of the Membrane System............419
1.2.2 Entropy Balance.....................420
1.2.3 Energy Balance......................421
1.2.4 Mass Balance......................422
1.2.5 Entropy Production....................422
1.2.6 Linear Laws.......................423
1.2.7 Linear Laws for Dilute Solutions..............425
1.2.8 Influence of Nonpermeable Components...........428
1.3 Transport of Nonelectrolytes with Chemical Reaction.......429
1.3.1 Description of the Membrane System............ 429
1.3.2 Mass Balance...................... 429
1.3.3 Entropy Production.................... 430
1.3.4 Linear Laws....................... 430
1.3.5 Active Transport..................... 431
1.4 Transport of Electrolytes.................... 432
1.4.1 Description of the Membrane System............ 432
1.4.2 Entropy Balance..................... 433
1.4.3 Energy Balance...................... 433
1.4.4 Mass Balance...................... 434
1.4.5 Entropy Production.................... 434
1.4.6 Generalization...................... 436
1.4.7 Linear Laws for Dilute Solutions; Special Case........ 437
1.5 Summary .......................... 440
2. Transport Processes across Membranes with Narrow Pores....... 440
2.1 Introduction.........................440
2.2 Transport Equations......................442
2.3 Equilibrium at the Phase Boundary Membrane/Solution......444
2.4 Integration of the Transport Equations..............446
2.4.1 Bulk Phases of Equal Composition.............447
2.4.1.1 Electroosmotic Volume Flow............ 448
2.4.1.2 Electric Conductivity................ 449
2.4.1.3 Electric Transference................ 449
2.4.1.4 Streaming Potential................ 450
2.4.2 Bulk Phases of Different Composition............ 450
2.4.2.1 Approximate Integration of the Transport Equations
(Constant Field Assumption)............ 450
2.4.2.2 Unidirectional Flows and Flow Ratio ........ 453
2.4.2.3 Membrane Potential................ 455
2.4.2.4 Osmotic Properties................. 456
2.5 Summary .......................... 459
List of Symbols........................... 459
References............................. 462
Author Index............................465
Subject Index............................507
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| genre | (DE-588)4014986-9 Enzyklopädie gnd-content |
| genre_facet | Enzyklopädie |
| id | DE-604.BV025952848 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:15:28Z |
| institution | BVB |
| isbn | 3540078185 0387078185 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-019196195 |
| oclc_num | 299649052 |
| open_access_boolean | |
| owner | DE-11 DE-29T DE-20 DE-824 DE-19 DE-BY-UBM DE-384 DE-703 DE-M49 DE-BY-TUM DE-355 DE-BY-UBR DE-12 DE-634 |
| owner_facet | DE-11 DE-29T DE-20 DE-824 DE-19 DE-BY-UBM DE-384 DE-703 DE-M49 DE-BY-TUM DE-355 DE-BY-UBR DE-12 DE-634 |
| physical | VII, 517 S. graph. Darst. |
| publishDate | 1976 |
| publishDateSearch | 1976 |
| publishDateSort | 1976 |
| publisher | Springer |
| record_format | marc |
| series | Encyclopedia of plant physiology |
| series2 | Encyclopedia of plant physiology |
| spelling | Transport in plants 3 Intracellular interactions and transport processes ed. by M. H. Zimmermann ... Berlin [u.a.] Springer 1976 VII, 517 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Encyclopedia of plant physiology N.S., 3 Encyclopedia of plant physiology ... Pflanzen (DE-588)4045539-7 gnd rswk-swf Stofftransport Biologie (DE-588)4443397-9 gnd rswk-swf (DE-588)4014986-9 Enzyklopädie gnd-content Pflanzen (DE-588)4045539-7 s Stofftransport Biologie (DE-588)4443397-9 s DE-604 Stocking, Clifford Ralph 1913- (DE-588)124604730 edt Zimmermann, Martin Huldrych 1926-1984 Sonstige (DE-588)124176674 oth (DE-604)BV009395197 3 Encyclopedia of plant physiology 3 (DE-604)BV000001458 3 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019196195&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Transport in plants Encyclopedia of plant physiology Pflanzen (DE-588)4045539-7 gnd Stofftransport Biologie (DE-588)4443397-9 gnd |
| subject_GND | (DE-588)4045539-7 (DE-588)4443397-9 (DE-588)4014986-9 |
| title | Transport in plants |
| title_auth | Transport in plants |
| title_exact_search | Transport in plants |
| title_full | Transport in plants 3 Intracellular interactions and transport processes ed. by M. H. Zimmermann ... |
| title_fullStr | Transport in plants 3 Intracellular interactions and transport processes ed. by M. H. Zimmermann ... |
| title_full_unstemmed | Transport in plants 3 Intracellular interactions and transport processes ed. by M. H. Zimmermann ... |
| title_short | Transport in plants |
| title_sort | transport in plants intracellular interactions and transport processes |
| topic | Pflanzen (DE-588)4045539-7 gnd Stofftransport Biologie (DE-588)4443397-9 gnd |
| topic_facet | Pflanzen Stofftransport Biologie Enzyklopädie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019196195&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV009395197 (DE-604)BV000001458 |
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