Verfügbarkeit: Biochemistry of lipids, lipoproteins and membranes

Biochemistry of lipids, lipoproteins and membranes:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 1991
Ausgabe:	[2. ed.]
Schriftenreihe:	New comprehensive biochemistry 20
Schlagworte:	Lipids Lipoproteins Cell Membranes Biochemistry Lipide Lipoproteide Biomembran Membranlipide Biochemie Lipidmembran Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXI, 596 S. Ill., graph. Darst.
ISBN:	0444893210 0444893849 0444803033

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Datensatz im Suchindex

_version_	1804118884771430400
adam_text	BIOCHEMISTRY OF LIPIDS, LIPOPROTEINS AND MEMBRANES EDITORS DENNIS E. VANCE AND JEAN E. VANCE LIPID AND LIPOPROTEIN RESEARCH GROUP, FACULTY OF MEDICINE, 328 HERITAGE MEDICAL RESEARCH CENTRE, EDMONTON, AHA., CANADA, T6G 2S2 1991 ELSEVIER AMSTERDAM * LONDON * NEW YORK * TOKYO IX CONTENTS PREFACE V LIST OF CONTRIBUTORS VII CHAPTER 1. PHYSICAL PROPERTIES AND FUNCTIONAL ROLES OF LIPIDS IN MEMBRANES PIETER R. CULLIS AND MICHAEL J. HOPE L 1. INTRODUCTION AND OVERVIEW 1 2. LIPID DIVERSITY AND DISTRIBUTION 3 2.1. CHEMICAL DIVERSITY OF LIPIDS 3 2.2. MEMBRANE LIPID COMPOSITIONS 5 2.3. TRANSBILAYER LIPID ASYMMETRY 7 3. MODEL MEMBRANE SYSTEMS 8 3.1. LIPID ISOLATION AND PURIFICATION 9 3.2. TECHNIQUES FOR MAKING MODEL MEMBRANE VESICLES 9 3.3. TECHNIQUES FOR MAKING PLANAR BILAYERS AND MONOLAYERS 13 3.4. RECONSTITUTION OF INTEGRAL MEMBRANE PROTEIN INTO VESICLES 13 4. PHYSICAL PROPERTIES OF LIPIDS 15 4.1. GEL-LIQUID-CRYSTALLINE PHASE BEHAVIOUR 15 4.2. LIPID POLYMORPHISM 19 4.3. FACTORS WHICH MODULATE LIPID POLYMORPHISM 24 4.4. THE PHYSICAL BASIS OF LIPID POLYMORPHISM 26 5. LIPIDS AND THE PERMEABILITY PROPERTIES OF MEMBRANES 28 5.1. THEORETICAL CONSIDERATIONS 28 5.2. PERMEABILITY OF WATER AND NON-ELECTROLYTES 29 5.3. PERMEABILITY OF IONS 30 6. LIPID-PROTEIN INTERACTIONS 31 6.1. EXTRINSIC PROTEINS 32 6.2. INTRINSIC PROTEINS 33 7. LIPIDS AND MEMBRANE FUSION 34 7.1. FUSION OF MODEL SYSTEMS 34 7.2. FUSION OF BIOLOGICAL MEMBRANES 36 8. MODEL MEMBRANES AND DRUG DELIVERY 38 9. FUTURE DIRECTIONS 40 REFERENCES 40 CHAPTER 2. LIPID METABOLISM IN PROCARYOTES S. JACKOWSKI, J.E. CRONAN JR. AND CO. ROCK 43 1. THE STUDY OF BACTERIAL LIPID METABOLISM 43 2. HISTORICAL INTRODUCTION 43 3. AN OVERVIEW OF PHOSPHOLIPID METABOLISM IN E. COLI 44 4. GENETIC ANALYSIS OF LIPID METABOLISM 44 5. MEMBRANE SYSTEMS OF E. COLI 48 6. LIPID BIOSYNTHETIC PATHWAYS IN E. COLI 50 6.1. INITIATION OF FATTY ACID BIOSYNTHESIS 50 6.2. ELONGATION OF ACYL CHAINS 51 6.3. PRODUCT DIVERSIFICATION 52 6.4. TRANSFER TO THE MEMBRANE 53 6.5. DIVERSIFICATION OF POLAR HEAD GROUPS 54 6.6. CENTRAL ROLE OF ACYL CARRIER PROTEIN 54 7. LIPOPOLYSACCHARIDE BIOSYNTHESIS 58 8. DEGRADATIVE PATHWAYS 59 8.1. PHOSPHOLIPASES 59 8.2. THIOESTERASES 62 8.3. FATTY ACID OXIDATION IN BACTERIA 63 9. PHOSPHOLIPID TURNOVER 63 9.1. THE DIACYLGLYCEROL CYCLE 63 9.2. THE 2-ACYLGLYCEROLPHOSPHOETHANOLAMINE CYCLE 65 10. INHIBITORS OF LIPID METABOLISM 66 10.1. 3-DECYNOYL-YV-ACETYLCYSTEAMINE 66 10.2. CERULENIN 66 10.3. THIOLACTOMYCIN 67 11. REGULATION OF FATTY ACID COMPOSITION IN E. COLI 68 11.1. ROLE OF 3-HYDROXYDECANOYL-ACP DEHYDRASE 68 11.2. ROLE OF 3-KETOACYL-ACP SYNTHASE I 69 11.3. ROLE OF 3-KETOACYL-ACP SYNTHASE II 70 11.4. FACTORS AFFECTING FATTY ACID CHAIN-LENGTH DISTRIBUTION 72 11.5. SYNTHESIS OF CYCLOPROPANE FATTY ACIDS 72 11.6. IMPORTANCE OF THE FATTY ACID COMPOSITION OF THE MEMBRANE PHOSPHOLIPIDS . . . 73 12. REGULATION OF PHOSPHOLIPID BIOSYNTHESIS IN E. COLI 74 12.1. CONTROL OF FATTY ACID POSITIONAL DISTRIBUTION 74 12.2. REGULATION OF TOTAL PHOSPHOLIPID SYNTHESIS 76 12.3. COORDINATION OF PHOSPHOLIPID SYNTHESIS WITH CELLULAR METABOLISM 77 12.4. REGULATION OF PHOSPHOLIPID HEAD GROUP COMPOSITION 77 12.5. E. COLI TOLERATES VARIATIONS IN PHOSPHOLIPID COMPOSITION 78 12.6. OUTER MEMBRANE LIPOPROTEIN 79 13. LIPID METABOLISM IN BACTERIA OTHER THAN E. COLI 80 13.1. BACTERIA LACKING UNSATURATED FATTY ACIDS 80 13.2. BACTERIA CONTAINING PHOSPHATIDYLCHOLINE 81 13.3. BACTERIA SYNTHESIZING UNSATURATED FATTY ACIDS BY AN AEROBIC PATHWAY 81 13.4. BACTERIA WITH A MULTIFUNCTIONAL FATTY ACID SYNTHASE 81 13.5. BACTERIA WITH INTRACYTOPLASMIC MEMBRANES 82 13.6. OTHER BACTERIAL ODDITIES 82 13.7. LIPIDS OF NONBACTERIAL (BUT RELATED) ORGANISMS 83 14. FUTURE DIRECTIONS 83 REFERENCES 84 CHAPTER 3. OXIDATION OF FATTY ACIDS HORST SCHULZ 87 1. THE PATHWAY OF ^-OXIDATION: A HISTORICAL ACCOUNT 87 2. UPTAKE AND ACTIVATION OF FATTY ACIDS IN ANIMAL CELLS 89 XI 3. ^-OXIDATION IN MITOCHONDRIA 91 3.1. MITOCHONDRIAL UPTAKE OF FATTY ACIDS 91 3.2. ENZYMES OF /J-OXIDATION IN MITOCHONDRIA 93 3.3. /^-OXIDATION OF UNSATURATED AND ODD-CHAIN FATTY ACIDS 96 3.4. REGULATION OF MITOCHONDRIAL /J-OXIDATION 98 3.5. INHIBITORS OF MITOCHONDRIAL /7-OXIDATION 100 4. /J-OXIDATION IN PEROXISOMES 101 5. FATTY ACID OXIDATION IN E. COLI 104 6. INHERITED DISEASES OF FATTY ACID OXIDATION 106 7. FUTURE DIRECTIONS 108 REFERENCES 109 CHAPTER 4. FATTY ACID SYNTHESIS IN EUCARYOTES ALAN G. GOODRIDGE ILL 1. INTRODUCTION ILL 2. SIGNALS IN BLOOD THAT MEDIATE THE EFFECTS OF DIET 112 3. WHICH ENZYMES REGULATE FATTY ACID SYNTHESIS? 114 4. REGULATION OF SUBSTRATE SUPPLY 115 4.1. PRODUCTION OF PYRUVATE FROM GLUCOSE 115 4.2. PRODUCTION OF CITRATE FROM PYRUVATE 115 4.3. PRODUCTION OF NADPH 117 5. REGULATION OF THE CATALYTIC EFFICIENCY OF ACETYL-COA CARBOXYLASE 117 5.1. A KEY REGULATORY REACTION 117 5.2. STRUCTURE AND REACTION MECHANISM 118 5.3. REGULATION BY CITRATE 118 5.4. REGULATION BY LONG-CHAIN FATTY ACYL-COA 119 5.5. REGULATION BY COVALENT MODIFICATION 121 6. FATTY ACID SYNTHASE 125 6.1. ANIMAL FATTY ACID SYNTHASE: THE COMPONENT REACTIONS 125 6.2. ANIMAL FATTY ACID SYNTHASE: THE SUBUNITS ARE IDENTICAL 127 6.3. ANIMAL FATTY ACID SYNTHASE: STRUCTURAL ORGANIZATION 128 6.4. COMPARISON OF YEAST AND ANIMAL FATTY ACID SYNTHASES 129 7. REGULATION OF ENZYME CONCENTRATION 130 7.1. MESSENGER RNA LEVELS REGULATE ENZYME SYNTHESIS RATES 130 7.2. TRANSCRIPTION IS USUALLY THE REGULATED STEP 131 7.3. REGULATION IN CELLS IN CULTURE 134 7.3.1. 3T3-L1 CELLS A PRE-ADIPOCYTE CELL LINE 134 7.3.2. HEPATOCYTES IN MAINTENANCE CULTURE 135 8. FUTURE DIRECTIONS 137 REFERENCES 138 CHAPTER 5. FATTY ACID DESATURATION AND CHAIN ELONGATION IN EUCARYOTES HAROLD W. COOK 141 1. INTRODUCTION 141 2. HISTORICAL BACKGROUND 143 3. CHAIN ELONGATION OF LONG CHAIN FATTY ACIDS 144 XLL 3.1. THE MICROSOMAL ELONGATION SYSTEM 146 3.2. THE MITOCHONDRIAL ELONGATION SYSTEM 147 3.3. FUNCTIONS OF THE TWO ELONGATION SYSTEMS 148 4. FORMATION OF MONOUNSATURATED FATTY ACIDS BY OXIDATIVE DESATURATION 148 4.1. NOMENCLATURE TO DESCRIBE DOUBLE BONDS 148 4.2. CHARACTERISTICS OF THE MONOENE-FORMING DESATURATION ENZYMES 149 4.3. MODIFICATION OF ZL9 DESATURASE ACTIVITIES IN VITRO 151 4.4. DIETARY AND HORMONAL REGULATION OF J9 DESATURASE 152 4.5. FORMATION OF MONOUNSATURATED FATTY ACIDS IN PLANTS 154 5. FORMATION OF POLYUNSATURATED FATTY ACIDS 154 5.1. CHARACTERISTICS AND RESTRICTIONS IN ANIMAL SYSTEMS 154 5.2. ESSENTIAL FATTY ACIDSA CONTRIBUTION OF PLANT SYSTEMS 155 5.3. FAMILIES OF FATTY ACIDS AND THEIR METABOLISM 157 5.3.1. THE (N-6) FAMILY 157 5.3.2. THE (N-3) FAMILY 159 5.3.3. COMPETITION BETWEEN THE (N-6) AND (N-3) FAMILIES 160 5.3.4. THE (N-9) FAMILY 161 5.3.5. THE (N-7) FAMILY 161 5.4. DIETARY AND HORMONAL ALTERATIONS OF POLYUNSATURATED ACID SYNTHESIS 161 5.5. TWO OR MORE DOUBLE BONDS IN PLANTS 163 6. UNSATURATED FATTY ACIDS WITH TRANS DOUBLE BONDS 164 7. ABNORMAL PATTERNS OF DISTRIBUTION AND METABOLISM OF LONG CHAIN SATURATED AND UNSATURATED FATTY ACIDS 165 7.1. ESSENTIAL FATTY ACID DEFICIENCY 165 7.2. ZINC DEFICIENCY 166 7.3. OTHER CLINICAL DISORDERS 166 7.4. RELATIONSHIP TO PLASMA CHOLESTEROL 166 8. FUTURE DIRECTIONS 167 REFERENCES 168 CHAPTER 6. METABOLISM OF TRIACYLGLYCEROLS DAVID N. BRINDLEY 171 1. INTRODUCTION 171 2. BIOSYNTHESIS OF TRIACYLGLYCEROLS 173 2.1. BIOSYNTHESIS OF PHOSPHATIDATE 173 2.2. CONVERSION OF PHOSPHATIDATE TO TRIACYLGLYCEROL 178 2.3. CONVERSION OF MONOACYLGLYCEROL TO TRIACYLGLYCEROL 179 3. DIGESTION, ABSORPTION AND TRANSPORT OF LIPIDS 181 3.1. DIGESTION OF LIPIDS 181 3.2. ABSORPTION OF LIPIDS FROM THE SMALL INTESTINE 183 3.3. FORMATION OF CHYLOMICRONS AND VLDL 184 3.4. PARTITIONING OF FATTY ACIDS BETWEEN THE PORTAL BLOOD AND THE LYMPHATIC SYSTEM . . 186 4. CONTROL OF TRIACYLGLYCEROL SYNTHESIS 187 4.1. CONTROL OF PHOSPHATIDATE SYNTHESIS IN THE LIVER 188 4.2. CONTROL OF THE CONVERSION OF PHOSPHATIDATE TO TRIACYLGLYCEROL IN LIVER 189 4.3. DIACYLGLYCEROL AS A PRECURSOR OF TRIACYLGLYCEROL, PHOSPHATIDYLCHOLINE AND PHOSPHATI- DYLETHANOLAMINE 193 5. METABOLISM OF TRIACYLGLYCEROLS WHEN THE ACTION OF INSULIN IS HIGH 195 6. TRIACYLGLYCEROL METABOLISM IN CONDITIONS OF METABOLIC STRESS 198 XLLL 7. FUTURE DIRECTIONS 200 REFERENCES 201 CHAPTER 7. PHOSPHOLIPID METABOLISM AND CELL SIGNALLING IN EUCARYOTES DENNIS E. VANCE 205 1. INTRODUCTION 205 2. PHOSPHATIDYLCHOLINE BIOSYNTHESIS 206 2.1. HISTORICAL BACKGROUND 206 2.2. CHOLINE TRANSPORT AND OXIDATION 207 2.3. ENZYMES OF THE CDP-CHOLINE PATHWAY 207 2.4. PHOSPHATIDYLETHANOLAMINE-JV-METHYLTRANSFERASE 208 3. REGULATION OF PHOSPHATIDYLCHOLINE BIOSYNTHESIS 209 3.1. THE RATE-LIMITING REACTION 209 3.2. THE TRANSLOCATION HYPOTHESIS 210 3.3. REGULATORY MECHANISMS 210 3.3.1. FATTY ACIDS ARE IMPORTANT REGULATORS OF PHOSPHATIDYLCHOLINE BIOSYNTHESIS IN CULTURED CELLS 211 3.3.2. DIACYLGLYCEROL MAY ALSO REGULATE PHOSPHATIDYLCHOLINE BIOSYNTHESIS . . . 211 3.3.3. PHOSPHORYLATION-DEPHOSPHORYLATION REACTIONS 212 3.3.4. FEEDBACK REGULATION 212 3.3.5. CHOLINEPHOSPHOTRANSFERASE 213 3.4. SUBSTRATE CHANNELING 213 4. SPHINGOMYELIN BIOSYNTHESIS 214 5. PHOSPHATIDYLSERINE BIOSYNTHESIS 215 5.1. HISTORICAL DEVELOPMENTS AND BIOSYNTHESIS 215 5.2. CHO MUTANTS AND REGULATION 217 6. PHOSPHATIDYLETHANOLAMINE BIOSYNTHESIS 218 6.1. HISTORICAL BACKGROUND 218 6.2. ENZYMES OF THE CDP-ETHANOLAMINE PATHWAY 218 6.3. REGULATION OF THE CDP-ETHANOLAMINE PATHWAY 219 6.3.1. REGULATION AT THE CYTIDYLYLTRANSFERASE REACTION 219 6.3.2. DIACYLGLYCEROL 220 6.4. PHOSPHATIDYLSERINE DECARBOXYLATION AND THE RELATIVE IMPORTANCE OF THE VARIOUS PATHWAYS FOR PHOSPHATIDYLETHANOLAMINE BIOSYNTHESIS 221 6.5. JV-ACYL-PHOSPHATIDYLETHANOLAMINE 221 7. POLYGLYCEROPHOSPHOLIPIDS 222 7.1. HISTORICAL DEVELOPMENTS AND BIOSYNTHETIC PATHWAYS 222 7.2. ENZYMES AND SUBCELLULAR LOCATION 224 8. INOSITOL PHOSPHOLIPIDS 224 8.1. HISTORICAL DEVELOPMENTS 224 8.2. BIOSYNTHETIC ENZYMES 225 9. PHOSPHOLIPIDS AS PRECURSORS OF CELLULAR SECOND MESSENGERS 226 9.1. DISCOVERY OF THE PHOSPHATIDYLINOSITOL CYCLE 226 9.2. DEGRADATION OF PHOSPHATIDYLINOSITOL-4,5-BISPHOSPHATE BY PHOSPHOLIPASEC . . . 227 9.3. METABOLISM OF THE INOSITOL PHOSPHATES 228 9.4. FUNCTION OF INOSITOL PHOSPHATES 229 9.5. DIACYLGLYCEROL AND PROTEIN KINASE C 230 9.6. PHOSPHATIDYLCHOLINE CYCLES AND FORMATION OF DIACYLGLYCEROL 231 XIV 10. PHOSPHOLIPID CATABOLISM AND REMODELING OF THE ACYL SUBSTITUENTS 231 11. PHOSPHOLIPID BIOSYNTHESIS IN YEAST 233 12. PHOSPHONOLIPIDS 234 12.1. HISTORICAL PERSPECTIVE 234 12.2. BIOSYNTHESIS 235 13. GLYCOSYL PHOSPHATIDYLINOSITOLS FOR ATTACHMENT OF CELL SURFACE PROTEINS 236 14. FUTURE DIRECTIONS 238 REFERENCES 238 CHAPTER 8. METABOLISM, REGULATION, AND FUNCTION OF ETHER-LINKED GLYCEROLIPIDS AND THEIR BIOACTIVE SPECIES FREDSNYDER 241 1. INTRODUCTION 241 2. NOMENCLATURE 241 3. HISTORICAL EVENTS 243 4. ANALYTICAL APPROACHES 245 5. PHYSICAL PROPERTIES 247 6. OCCURRENCES IN NATURE 248 7. BIOLOGICALLY ACTIVE ETHER LIPIDS 249 8. BIOSYNTHESIS 250 8.1. ETHER LIPID PRECURSORS 250 8.1.1. ACYL-COA REDUCTASE 250 8.1.2. DIHYDROXYACETONE-P ACYLTRANSFERASE 250 8.2. ETHER LIPIDS IN MEMBRANES 252 8.2.1. BIOSYNTHESIS OF THE ETHER BOND 252 8.2.2. BIOSYNTHESIS OF THE ALKYL ANALOGUE OF PHOSPHATIDIC ACID 254 8.2.3. BIOSYNTHESIS OF COMPLEX NEUTRAL GLYCEROLIPIDS AND PHOSPHOLIPIDS WITH 0-ALKYL BONDS 254 8.2.4. BIOSYNTHESIS OF PLASMALOGENS 255 8.3. BIOACTIVE ETHER LIPIDS 256 9. CATABOLISM 258 9.1. ETHER LIPID PRECURSORS 258 9.1.1. LONG-CHAIN FATTY ALCOHOLS 258 9.1.2. DIHYDROXYACETONE-P AND ACYLDIHYDROXYACETONE-P 258 9.2. ETHER LIPIDS IN MEMBRANES 259 9.2.1. ALKYL CLEAVAGE ENZYME 259 9.2.2. PLASMALOGENASES 260 9.2.3. PHOSPHOLIPASES AND LIPASES 260 9.3. BIOACTIVE ETHER LIPIDS 262 10. REGULATORY CONTROLS 263 11. FUNCTIONAL ROLES 264 11.1. MEMBRANE COMPONENTS 264 11.2. CELL MEDIATORS (ACTIVITIES AND MECHANISMS OF ACTION) 265 12. FUTURE DIRECTIONS 266 REFERENCES 267 XV CHAPTER 9. PHOSPHOLIPASES MOSELEY WAITE 269 1. OVERVIEW 269 1.1. DEFINITION OF PHOSPHOLIPASES 269 1.2. ASSAY OF PHOSPHOLIPASES 271 1.3. INTERACTION OF PHOSPHOLIPASES WITH INTERFACES 272 2. THE PHOSPHOLIPASES 276 2.1. PHOSPHOLIPASE A 2 276 2.2. PHOSPHOLIPASE B AND LYSOPHOSPHOLIPASES 278 2.3. PHOSPHOLIPASE A 2 280 2.4. PHOSPHOLIPASE C 287 2.5. PHOSPHOLIPASE D 290 2.6. PHOSPHOLIPASES IN SIGNAL TRANSDUCTION 292 3. FUTURE DIRECTIONS 292 REFERENCES 294 CHAPTER 10. THE EICOSANOIDS: CYCLOOXYGENASE, LIPOXYGENASE, AND EPOXYGENASE PATHWAYS WILLIAM L. SMITH, PIERRE BORGEAT AND FRANK A. FITZPATRICK 297 1. INTRODUCTION 297 2. PROSTANOIDS 298 2.1. STRUCTURES AND NOMENCLATURE 298 2.2. PROSTANOID CHEMISTRY 299 2.3. PROSTANOID BIOSYNTHESIS 299 2.4. ARACHIDONATE RELEASE 299 2.5. PROSTAGLANDIN ENDOPEROXIDE FORMATION 300 2.6. PHYSICO-CHEMICAL PROPERTIES OF PGH SYNTHASE 302 2.7. PGH SYNTHASE AND NONSTEROIDAL ANTI-INFLAMMATORY DRUGS 302 2.8. ANTI-INFLAMMATORY STEROIDS 303 2.9. PGH SYNTHASE ACTIVE SITE 304 2.10. REGULATION OF PGH SYNTHASE GENE EXPRESSION 304 2.11. PGH 2 METABOLISM 305 2.12. CATABOLISM: PROSTANOIDS AS LOCAL HORMONES 306 3. HYDROXY- AND HYDROPEROXY-EICOSAENOIC ACIDS AND LEUKOTRIENES 308 3.1. INTRODUCTION AND OVERVIEW 308 3.2. MECHANISM OF LEUKOTRIENE BIOSYNTHESIS IN HUMAN NEUTROPHILS 309 3.3. THE ENZYMES OF THE 5-LIPOXYGENASE PATHWAY 312 3.4. REGULATION OF LEUKOTRIENE SYNTHESIS 313 3.5. THE METABOLISM OF LIPOXYGENASE PRODUCTS 315 3.6. BIOLOGICAL ACTIVITIES OF LEUKOTRIENES 317 4. EPOXYGENASE PRODUCTS 318 4.1. INTRODUCTION 318 4.2. STRUCTURES, NOMENCLATURE, AND BIOSYNTHESIS 318 4.3. OCCURRENCE OF EPOXYEICOSATRIENOIC ACIDS 321 4.4. METABOLISM OF EPOXYGENASE METABOLITES OF ARACHIDONIC ACID 321 4.5. BIOLOGICAL ACTIONS OF EPOXYGENASE DERIVED EPETRES AND HETRES 322 XVI 5. FUTURE DIRECTIONS 322 5.1. CYCLOOXYGENASE METABOLITES 322 5.2. LIPOXYGENASE METABOLITES 323 5.3. EPOXYGENASE METABOLITES 323 REFERENCES 323 CHAPTER 11. SPHINGOLIPIDS CHARLES C. SWEELEY 327 1. INTRODUCTION 327 2. CHEMISTRY AND DISTRIBUTION 330 2.1. SPHINGOID BASES 330 2.2. CERAMIDES 332 2.3. GLYCOSPHINGOLIPIDS 333 2.3.1. NEUTRAL GLYCOSPHINGOLIPIDS 333 2.3.2. ACIDIC GLYCOSPHINGOLIPIDS 334 2.3.2.1. GANGLIOSIDES 334 2.3.2.2. PHOSPHORUS-CONTAINING GLYCOSPHINGOLIPIDS 336 2.3.2.3. SULFATOGLYCOSPHINGOLIPIDS 337 3. BIOSYNTHESIS OF SPHINGOLIPIDS 337 3.1. SPHINGOID BASES AND CERAMIDE 338 3.2. SPHINGOMYELIN 340 3.3. SULFATOGLYCOSPHINGOLIPIDS 340 3.4. NEUTRAL GLYCOSPHINGOLIPIDS 341 3.4.1. CELL SURFACE GLYCOSYLTRANSFERASES 345 3.5. GANGLIOSIDES 345 4. TURNOVER OF SPHINGOLIPIDS 347 4.1. LYSOSOMAL METABOLISM OF SPHINGOLIPIDS 348 4.1.1. SPHINGOMYELIN 348 4.1.2. CERAMIDE 349 4.1.3. GLYCOSPHINGOLIPIDS 349 4.2. GLYCOSPHINGOLIPID STORAGE DISEASES 350 4.2.1. TAY-SACHS DISEASE AND RELATED DISORDERS 351 4.2.1.1. A-SUBUNIT MUTATIONS 352 4.2.1.2. /?-SUBUNIT MUTATIONS 353 4.2.1.3. DEFECTIVE G M2 ACTIVATOR PROTEIN 353 4.2.2. FABRY S DISEASE AND SCHINDLER S DISEASE 353 5. REGULATION OF GLYCOSPHINGOLIPID METABOLISM 354 5.1. DEVELOPMENTAL CHANGES 355 5.1.1. GLYCOSPHINGOLIPID MARKERS IN LEUKOCYTE DIFFERENTIATION 355 5.1.2. EARLY EMBRYONIC MARKERS 356 5.2. ONCOGENIC TRANSFORMATION AND IMMUNOMODULATION BY SHED GANGLIOSIDES . . . . 356 6. BIOLOGICAL ACTIVITIES AND FUNCTIONAL ROLES OF SPHINGOLIPIDS 357 6.1. ADHERENCE OF MICROORGANISMS TO CELL SURFACE GLYCOSPHINGOLIPIDS 357 6.2. MODULATION OF SIGNAL TRANSDUCTION 358 6.2.1. GLYCOSPHINGOLIPIDS 358 6.2.2. SPHINGOID BASES 359 7. FUTURE DIRECTIONS 359 REFERENCES 360 XVII CHAPTER 12. CHOLESTEROL: EVOLUTION OF STRUCTURE AND FUNCTION KONRAD BLOCH 363 1. NATURAL OCCURRENCE OF STEROLS 363 2. METABOLIC AND PRECURSOR FUNCTIONS OF THE STEROL MOLECULE 364 3. STEROL PATTERNS 366 4. STEROLS AND MEMBRANE FUNCTION 368 4.1. FUNCTION OF STEROLS IN ANIMAL MEMBRANES 368 4.2. STEROL AUXOTROPHS 369 4.3. METABOLIC REGULATION IN THE MEMBRANE ENVIRONMENT 370 4.4. FLUIDITY CONTROL 371 5. REGULATORY ROLES FOR STEROLS IN MEMBRANES 372 5.1. FUNGI AND INVERTEBRATES 372 5.2. STEROL EFFECTS ON HORMONE AND NEUROTRANSMITTER RECEPTORS 373 5.3. STEROLS AND FUSION OF VIRAL MEMBRANES 374 5.4. CAPPING OF SURFACE IMMUNOGLOBULIN 375 5.5. STEROL EFFECTS ON ENZYME ACTIVITIES 375 5.6. EFFECTS OF CHOLESTEROL ON PHOSPHOLIPID SYNTHESIS 376 6. EVOLUTION OF THE STEROL STRUCTURE 377 7. FUTURE DIRECTIONS 380 REFERENCES 381 CHAPTER 13. REGULATION OF STEROL BIOSYNTHESIS AND ISOPRENYLATION OF PROTEINS PETER A. EDWARDS 383 1. INTRODUCTION 383 2. REGULATION OF CHOLESTEROL SYNTHESIS 385 3. REGULATION OF CHOLESTERYL ESTER SYNTHESIS 387 4. TRANSCRIPTIONAL CONTROL OF CHOLESTEROL SYNTHESIS 389 5. POSTTRANSCRIPTIONAL REGULATION 6. IDENTIFICATION OF THE PHYSIOLOGICAL REGULATORS 1. REGULATION OF BILE ACID SYNTHESIS 8. ISOPRENYLATION OF PROTEINS 9. FUTURE DIRECTIONS REFERENCES 400 CHAPTER 14. LIPOPROTEIN STRUCTURE AND SECRETION ROGER A. DAVIS 403 1- INTRODUCTION 2. STRUCTURE AND FUNCTION OF PLASMA LIPOPROTEINS 2.1. CHYLOMICRONS AND VERY LOW DENSITY LIPOPROTEINS 2.2. STRUCTURE: SURFACE COMPONENTS . 2.3. CORE COMPONENTS 4Q S 2.4. LOW DENSITY LIPOPROTEINS: STRUCTURE ^ 2.4.1. ORIGIN OF LOW DENSITY LIPOPROTEINS ^ 2.4.2. HIGH DENSITY LIPOPROTEINS: STRUCTURE AND FUNCTION ^ 2.4.3. DISCOIDAL HIGH DENSITY LIPOPROTEINS XV111 3. ASSEMBLY OF NASCENT LIPOPROTEINS 411 3.1. TRIACYLGLYCEROL-RICH LIPOPROTEINS 411 3.1.1. ROLE OF LIPIDS 412 3.2. CORE LIPIDS 412 3.2.1. ROLE OF APOLIPOPROTEINS 413 3.2.2. APOLIPOPROTEIN B STRUCTURE 413 3.3. VITELLOGENIN: THE PRIMORDIAL APOLIPOPROTEIN 415 3.4. VERY LOW DENSITY LIPOPROTEIN ASSEMBLY: EJECTION OF A BALL OF FAT OUT OF THE ENDOPLASMIC RETICULUM 3.5. FILLING THE HYDROPHOBIC CORE: A THERMODYNAMIC DILEMMA 422 3.6. HIGH DENSITY LIPOPROTEIN SYNTHESIS AND SECRETION 422 4. FUTURE DIRECTIONS 423 REFERENCES 424 CHAPTER 15. DYNAMICS OF LIPOPROTEIN TRANSPORT IN THE CIRCULATORY SYSTEM PHOEBE E. FIELDING AND CHRISTOPHER J. FIELDING 42 7 1. OVERVIEW 427 2. LIPOPROTEIN LIPASE AND THE INITIAL METABOLISM OF LIPOPROTEIN TRIACYLGLYCEROL 430 2.1. INITIAL EVENTS 430 2.2. LIPOPROTEIN LIPASE STRUCTURE 431 2.3. SYNTHESIS AND TRANSPORT OF LIPOPROTEIN LIPASE 431 2.4. THE LIPOPROTEIN LIPASE REACTION AND THE ROLE OF APOLIPOPROTEIN C-2 432 2.5. LIPOPROTEIN LIPASE ACTIVITY AT THE VASCULAR SURFACE 434 2.6. REGULATION OF LIPOPROTEIN LIPASE ACTIVITY BY PRODUCTS OF LIPOLYSIS 435 2.7. PHYSIOLOGICAL REGULATION OF LIPOPROTEIN LIPASE 436 2.8. CONGENITAL LIPOPROTEIN LIPASE DEFICIENCY 437 3. HEPATIC TRIACYLGLYCEROL LIPASE AND THE LATER METABOLISM OF LIPOPROTEIN TRIACYLGLYCEROL. . . 437 3.1. INTRODUCTION 437 3.2. STRUCTURE OF HEPATIC TRIACYLGLYCEROL LIPASE 437 3.3. ACYL GROUP HYDROLYSIS AND EXCHANGE CATALYZED BY HEPATIC TRIACYLGLYCEROL LIPASE . . 438 3.4. HEPATIC TRIACYLGLYCEROL LIPASE AND THE HYDROLYSIS OF LIPOPROTEIN LIPIDS 438 3.5. REGULATION OF HEPATIC TRIACYLGLYCEROL LIPASE ACTIVITY 439 3.6. HUMAN HEPATIC TRIACYLGLYCEROL LIPASE DEFICIENCY 440 3.7. PHOSPHOLIPID EXCHANGE PROTEIN AND ITS ACTIVITY 440 4. LECITHIN:CHOLESTEROL ACYLTRANSFERASE AND THE INITIAL METABOLISM OF LIPOPROTEIN CHOLESTEROL . 440 4.1. INTRODUCTION 440 4.2. FORWARD CHOLESTEROL TRANSPORT BY VERY LOW DENSITY LIPOPROTEIN AND ITS PRODUCT, LOW DENSITY LIPOPROTEIN 444 4.3. ORIGIN OF THE MAJOR HIGH DENSITY LIPOPROTEIN PROTEINS 445 4.4. CLASSIFICATION OF PLASMA AND LYMPH HIGH DENSITY LIPOPROTEIN 446 4.5. APOPROTEIN TRANSFERS IN HIGH DENSITY LIPOPROTEIN 446 4.6. ORIGIN OF PLASMA LECITHIN:CHOLESTEROL ACYLTRANSFERASE 447 4.7. STRUCTURE OF PLASMA LECITHIN:CHOLESTEROL ACYLTRANSFERASE 447 4.8. MECHANISM OF PLASMA LECITHINXHOLESTEROL ACYLTRANSFERASE ACTIVITY 448 4.9. ROLE OF APO A-L IN THE PLASMA LECITHIN:CHOLESTEROL ACYLTRANSFERASE REACTION . . . 449 4.10. TRANSFER OF CHOLESTEROL AMONG HIGH DENSITY LIPOPROTEIN SPECIES 450 4.11. PHYSIOLOGICAL REGULATION OF PLASMA LECITHINXHOLESTEROL ACYLTRANSFERASE ACTIVITY . . 452 4.12. STUDIES OF PLASMA LECITHINXHOLESTEROL ACYLTRANSFERASE DEFICIENCY 452 XIX 5. CHOLESTERYL ESTER TRANSFER PROTEIN AND THE LATER METABOLISM OF LIPOPROTEIN CHOLESTEROL . . 452 5.1. INTRODUCTION 452 5.2. STRUCTURE OF CHOLESTERYL ESTER TRANSFER PROTEIN 454 5.3. MECHANISM OF CHOLESTERYL ESTER TRANSFER PROTEIN ACTIVITY 454 5.4. QUANTITATION OF CHOLESTERYL ESTER TRANSFER 456 5.5. PHYSIOLOGICAL REGULATION OF CHOLESTERYL ESTER TRANSFER PROTEIN 456 5.6. CONGENITAL CHOLESTERYL ESTER TRANSFER PROTEIN DEFICIENCY 457 5.7. CHOLESTERYL ESTER TRANSFER PROTEIN INHIBITOR PROTEIN 457 6. SUMMARY AND FUTURE DIRECTIONS 457 REFERENCES 458 CHAPTER 16. REMOVAL OF LIPOPROTEINS FROM PLASMA WOLFGANG J. SCHNEIDER 461 1. INTRODUCTION 461 2. REMOVAL OF LOW DENSITY LIPOPROTEIN FROM THE CIRCULATION 464 2.1. RECEPTOR-MEDIATED ENDOCYTOSIS 464 2.2. THE LOW DENSITY LIPOPROTEIN RECEPTOR PATHWAY 465 2.2.1. FAMILIAL HYPERCHOLESTEROLEMIA: CLINICAL CONSEQUENCES OF LOW DENSITY LIPO- PROTEIN RECEPTOR DYSFUNCTION 466 2.2.2. BIOCHEMICAL FINDINGS IN CULTURED FIBROBLASTS FROM FAMILIAL HYPERCHOLEST- EROLEMIA HOMOZYGOTES 467 2.3. BIOSYNTHESIS AND STRUCTURE OF THE LOW DENSITY LIPOPROTEIN RECEPTOR 467 2.3.1. THE LOW DENSITY LIPOPROTEIN RECEPTOR PROTEIN 468 2.3.2. THE LIGAND BINDING DOMAIN 469 2.3.3. THE EGF PRECURSOR HOMOLOGY DOMAIN 470 2.3.4. THE THIRD DOMAIN 470 2.3.5. THE MEMBRANE ANCHORING DOMAIN 470 2.3.6. THE CYTOPLASMIC TAIL 471 2.4. MOLECULAR DEFECTS IN LOW DENSITY LIPOPROTEIN RECEPTORS OF PATIENTS WITH FAMILIAL HYPER- CHOLESTEROLEMIA 471 2.4.1. THE GENE FOR THE HUMAN LOW DENSITY LIPOPROTEIN RECEPTOR 471 2.4.2. FOUR GROUPS OF LOW DENSITY LIPOPROTEIN RECEPTOR MUTATIONS 472 2.4.2.1. CLASS 1: NO DETECTABLE PRECURSOR 472 2.4.2.2. CLASS 2: SLOW OR ABSENT PROCESSING OF PRECURSOR 472 2.4.2.3. CLASS 3: ABNORMAL LIGAND BINDING 473 2.4.2.4. CLASS 4: INTERNALIZATION DEFECTIVE 474 3. CATABOLISM OF CHYLOMICRONS 475 4. HIGH DENSITY LIPOPROTEIN AS A TRANSPORT VEHICLE 477 5. ATHEROSCLEROSIS 478 5.1. UPTAKE AND MODIFICATION OF LOW DENSITY LIPOPROTEIN IN THE INTIMA 478 5.2. SCAVENGER RECEPTORS 480 6. LIPOPROTEIN TRANSPORT IN THE LAYING HEN 481 7. LOW DENSITY LIPOPROTEIN METABOLISM BY RAT SEROSAL MAST CELLS 483 8. FUTURE DIRECTIONS 485 REFERENCES 485 XX CHAPTER 17. LIPID ASSEMBLY INTO CELL MEMBRANES DENNIS R. VOELKER 48 9 1. INTRODUCTION 489 2. THE DIVERSITY OF LIPIDS 489 3. METHODS TO STUDY INTRA- AND INTER-MEMBRANE LIPID TRANSPORT 492 3.1. FLUORESCENT PROBES 494 3.2. SPIN LABELED ANALOGS 494 3.3. ASYMMETRIC CHEMICAL MODIFICATION OF MEMBRANES 495 3.4. PHOSPHOLIPID TRANSFER PROTEINS 496 3.5. RAPID PLASMA MEMBRANE ISOLATION 497 3.6. ORGANELLE SPECIFIC LIPID METABOLISM 498 4. LIPID TRANSPORT PROCESSES 498 4.1. INTRAMEMBRANE LIPID TRANSLOCATION AND MODEL MEMBRANES 498 4.2. INTRAMEMBRANE LIPID TRANSLOCATION AND BIOLOGICAL MEMBRANES 502 4.2.1. PROCARYOTES 502 4.2.2. EUCARYOTES 503 4.2.2.1. TRANSBILAYER MOVEMENT AT THE ENDOPLASMIC RETICULUM 503 4.2.2.2. TRANSBILAYER MOVEMENT OF PHOSPHATIDYLCHOLINE IN ERYTHROCYTES . . . . 504 4.2.2.3. TRANSBILAYER MOVEMENT OF PHOSPHATIDYLCHOLINE IN NUCLEATED CELLS . . . 505 4.2.2.4. ATP DEPENDENT TRANSBILAYER MOVEMENT OF AMINOPHOSPHOLIPIDS AT THE PLASMA MEMBRANE OF EUKARYOTIC CELLS 506 4.3. INTERMEMBRANE LIPID TRANSPORT 507 4.3.1. TRANSPORT IN PROCARYOTES 507 4.3.2. TRANSPORT IN EUCARYOTES 510 4.3.2.1. PHOSPHATIDYLCHOLINE 510 4.3.2.2. PHOSPHATIDYLETHANOLAMINE 512 4.3.2.3. PHOSPHATIDYLSERINE 513 4.3.2.4. SPHINGOLIPIDS 515 4.3.2.5. CHOLESTEROL 517 4.3.2.6. PHOSPHOLIPID TRANSFER PROTEINS AND PHOSPHATIDYLINOSITOL TRANSPORT . . . 518 5. FUTURE DIRECTIONS 521 REFERENCES 522 CHAPTER 18. ASSEMBLY OF PROTEINS INTO MEMBRANES REINHART A.F. REITHMEIER 525 1. ORGANIZATION OF MEMBRANE PROTEINS 525 1.1. CLASSIFICATION OF MEMBRANE PROTEINS 525 1.2. MEMBRANE PROTEIN STRUCTURE AND ENERGETICS 528 1.3. ASSEMBLY OF MEMBRANE PROTEINS 530 2. SECRETION OF PROTEINS AND THE SIGNAL HYPOTHESIS 532 2.1. THE PALADE SECRETION PATHWAY 533 2.2. THE BLOBEL SIGNAL HYPOTHESIS 533 2.3. IN VITRO TRANSLATION AND TRANSLOCATION SYSTEMS 535 2.4. THE MILSTEIN EXPERIMENT: SECRETED PROTEINS ARE MADE WITH AN AMINO TERMINAL SIGNAL SEQUENCE 538 2.5. SIGNAL SEQUENCES 540 XXI 3. THE TARGETING AND TRANSLOCATION MACHINERY 541 3.1. THE SIGNAL RECOGNITION PARTICLE 542 3.2. THE SIGNAL RECOGNITION PARTICLE RECEPTOR 543 3.3. TRANSLOCATION COMPONENTS 544 3.4. RIBOSOME-BINDING PROTEINS 545 3.5. SIGNAL PEPTIDASE 546 4. BIOSYNTHESIS OF TYPE I SIMPLE MEMBRANE PROTEINS 546 4.1. IGM AND THE RELATIONSHIP BETWEEN THE BIOSYNTHESIS OF SECRETED PROTEINS AND SIMPLE MEMBRANE PROTEINS 546 4.2. VESICULAR STOMATITIS VIRUS GLYCOPROTEIN AND HEMAGGLUTININ 549 4.3. LOOP MODELS AND INSERTION INTO THE LIPID BILAYER 551 4.4. EVIDENCE FOR A LOOP STRUCTURE FOR INSERTION OF SIGNAL SEQUENCES 553 5. BIOSYNTHESIS OF TYPE II SIMPLE MEMBRANE PROTEINS 554 5.1. OVALBUMIN, A SECRETED PROTEIN MADE WITHOUT A CLEAVED SIGNAL SEQUENCE . . . . 556 5.2. ASIALOGLYCOPROTEIN RECEPTOR 557 5.3. SUCRASE-ISOMALTASE 557 6. BIOSYNTHESIS OF CYTOCHROME P-450 AND CYTOCHROME B 5 558 6.1. CYTOCHROME P-450 558 6.2. CYTOCHROME B 5 559 7. BIOSYNTHESIS OF COMPLEX MEMBRANE PROTEINS 559 7.1. ARTIFICIAL MEMBRANE PROTEINS 559 7.2. BAND 3, THE ANION TRANSPORT PROTEIN OF THE ERYTHROCYTE MEMBRANE 561 7.3. GLUCOSE CARRIER 561 7.4. RHODOPSIN 561 7.5. CA 2+ ATPASE AND CALSEQUESTRIN 562 8. GLYCOSYLATION OF PROTEINS 562 8.1. JV-GLYCOSYLATION 562 8.2. PROCESSING OF THE OLIGOSACCHARIDE CHAIN 563 8.3. O-GLYCOSYLATION 566 9. ATTACHMENT OF LIPID TO PROTEINS 566 9.1. FATTY ACYLATION 566 9.2. PHOSPHATIDYLINOSITOL ANCHORS 567 10. PROTEIN FOLDING AND EXIT FROM THE ENDOPLASMIC RETICULUM 567 10.1. PROTEIN FOLDING 567 10.2. DISULFIDE FORMATION 568 10.3. ASSEMBLY OF MULTISUBUNIT SYSTEMS 569 10.4. EXIT FROM THE ENDOPLASMIC RETICULUM 570 10.5. KDEL, AN ENDOPLASMIC RETICULUM RETENTION SIGNAL 570 11. TRANSPORT AND TARGETING OF PROTEINS 571 11.1. VESICLES MOVE PROTEINS BETWEEN ORGANELLES 571 11.2. ROLE OF GTP-BINDING PROTEINS 573 11.3. LYSOSOMAL TARGETING 575 11.4. PROTEIN SORTING IN EPITHELIAL CELLS 576 12. FUTURE DIRECTIONS -^ REFERENCES 577 INDEX 579
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discipline	Biologie Chemie
edition	[2. ed.]
format	Book
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genre	1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV004766324
illustrated	Illustrated
indexdate	2024-07-09T16:17:24Z
institution	BVB
isbn	0444893210 0444893849 0444803033
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-002934242
oclc_num	214312864
open_access_boolean
owner	DE-19 DE-BY-UBM DE-12 DE-703 DE-355 DE-BY-UBR DE-29 DE-20 DE-83 DE-188
owner_facet	DE-19 DE-BY-UBM DE-12 DE-703 DE-355 DE-BY-UBR DE-29 DE-20 DE-83 DE-188
physical	XXI, 596 S. Ill., graph. Darst.
publishDate	1991
publishDateSearch	1991
publishDateSort	1991
publisher	Elsevier
record_format	marc
series	New comprehensive biochemistry
series2	New comprehensive biochemistry
spelling	Biochemistry of lipids, lipoproteins and membranes ed. Dennis E. Vance ... [2. ed.] Amsterdam [u.a.] Elsevier 1991 XXI, 596 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier New comprehensive biochemistry 20 Literaturangaben Lipids cabt Lipoproteins cabt Cell Membranes cabt Biochemistry cabt Lipide (DE-588)4035873-2 gnd rswk-swf Lipoproteide (DE-588)4074259-3 gnd rswk-swf Biomembran (DE-588)4006884-5 gnd rswk-swf Membranlipide (DE-588)4203814-5 gnd rswk-swf Biochemie (DE-588)4006777-4 gnd rswk-swf Lipidmembran (DE-588)4167790-0 gnd rswk-swf 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content Lipidmembran (DE-588)4167790-0 s DE-604 Lipide (DE-588)4035873-2 s Lipoproteide (DE-588)4074259-3 s Biomembran (DE-588)4006884-5 s Biochemie (DE-588)4006777-4 s 2\p DE-604 Membranlipide (DE-588)4203814-5 s 3\p DE-604 DE-188 Vance, Dennis E. Sonstige oth New comprehensive biochemistry 20 (DE-604)BV000003914 20 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002934242&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Biochemistry of lipids, lipoproteins and membranes New comprehensive biochemistry Lipids cabt Lipoproteins cabt Cell Membranes cabt Biochemistry cabt Lipide (DE-588)4035873-2 gnd Lipoproteide (DE-588)4074259-3 gnd Biomembran (DE-588)4006884-5 gnd Membranlipide (DE-588)4203814-5 gnd Biochemie (DE-588)4006777-4 gnd Lipidmembran (DE-588)4167790-0 gnd
subject_GND	(DE-588)4035873-2 (DE-588)4074259-3 (DE-588)4006884-5 (DE-588)4203814-5 (DE-588)4006777-4 (DE-588)4167790-0 (DE-588)4143413-4
title	Biochemistry of lipids, lipoproteins and membranes
title_auth	Biochemistry of lipids, lipoproteins and membranes
title_exact_search	Biochemistry of lipids, lipoproteins and membranes
title_full	Biochemistry of lipids, lipoproteins and membranes ed. Dennis E. Vance ...
title_fullStr	Biochemistry of lipids, lipoproteins and membranes ed. Dennis E. Vance ...
title_full_unstemmed	Biochemistry of lipids, lipoproteins and membranes ed. Dennis E. Vance ...
title_short	Biochemistry of lipids, lipoproteins and membranes
title_sort	biochemistry of lipids lipoproteins and membranes
topic	Lipids cabt Lipoproteins cabt Cell Membranes cabt Biochemistry cabt Lipide (DE-588)4035873-2 gnd Lipoproteide (DE-588)4074259-3 gnd Biomembran (DE-588)4006884-5 gnd Membranlipide (DE-588)4203814-5 gnd Biochemie (DE-588)4006777-4 gnd Lipidmembran (DE-588)4167790-0 gnd
topic_facet	Lipids Lipoproteins Cell Membranes Biochemistry Lipide Lipoproteide Biomembran Membranlipide Biochemie Lipidmembran Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002934242&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000003914
work_keys_str_mv	AT vancedennise biochemistryoflipidslipoproteinsandmembranes

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