Proteins at solid-liquid interfaces

Proteins at solid-liquid interfaces

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Weitere Verfasser: Déjardin, Philippe (HerausgeberIn)
Format: Buch
Sprache:English
Veröffentlicht: Berlin [u.a.] Springer 2006
Schriftenreihe:Principles and Practice
Schlagworte:
Absorption > physiology
Adsorption
Protein Conformation
Proteins
Proteins > pharmacokinetics
Solid-liquid interfaces
Proteine
Flüssigkeit
Festkörper
Grenzfläche
Aufsatzsammlung
Online-Zugang:http://deposit.dnb.de/cgi-bin/dokserv?id=2789681&prov=M&dokv̲ar=1&doke̲xt=htm
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Datensatz im Suchindex

DE-BY-TUM_call_number 1002 CHE 827f 2006 A 9174
DE-BY-TUM_katkey 1563893
DE-BY-TUM_location 10
DE-BY-TUM_media_number 040050573107
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adam_text CONTENTS PART I ANALYSIS OF THE ADSORPTION KINETICS 1 PROTEIN ADSORPTION KINETICS: INFLUENCE OF SUBSTRATE ELECTRIC POTENTIAL 1 PAUL R. VAN TASSEL 1.1 INTRODUCTION .................................................................. 1 1.2 THEORETICAL PREDICTION..................................................... 2 1.3 EXPERIMENTAL MEASURE..................................................... 6 1.3.1 OWLS PRINCIPLES.................................................. 6 1.3.2 OWLS EXPERIMENTS .............................................. 8 1.4 RESULTS .......................................................................... 9 1.5 DISCUSSION..................................................................... 17 1.5.1 SURFACE-BOUND COUNTERIONS................................... 19 1.5.2 LOCAL PH EFFECTS................................................... 20 1.5.3 SOLVENT INTERFACIAL STRUCTURE .................................. 20 1.5.4 PROTEIN CHARGE HETEROGENEITY ................................ 20 1.6 CONCLUSIONS ................................................................... 21 REFERENCES ............................................................................. 21 2 FROM KINETICS TO STRUCTURE: HIGH RESOLUTION MOLECULAR MICROSCOPY 23 JEREMY J. RAMSDEN 2.1 INTRODUCTION .................................................................. 23 2.2 OPTICAL WAVEGUIDE LIGHTMODE SPECTROSCOPY....................... 25 2.2.1 PRINCIPLES OF OPTICAL BIOSENSING ............................. 27 2.2.2 MODE EQUATIONS FOR OWLS .................................... 28 2.2.3 THE UNIFORM THIN FILM APPROXIMATION (UTFA) ....... 30 2.2.4 OPTICAL INVARIANTS................................................. 31 2.3 THE PRACTICAL DETERMINATION OF WAVEGUIDE PARAMETERS ........ 34 2.3.1 DEVICE FABRICATION ............................................... 35 2.3.2 FLUID HANDLING ARRANGEMENTS................................ 36 2.4 STATIC STRUCTURE............................................................... 37 2.5 KINETIC ANALYSIS AND DYNAMIC STRUCTURAL INFERENCE ............. 37 2.5.1 PARTICLE TRANSPORT ................................................ 37 VIII CONTENTS 2.5.2 THE CHEMICAL ADSORPTION COEFFICIENT...................... 40 2.5.3 THE ANALYSIS OF THE AVAILABLE AREA FUNCTION............ 41 2.6 BEHAVIOUR OF REAL PROTEINS ............................................... 43 2.6.1 EVALUATION OF LATERAL DIFFUSIVITY AND 2D CRYSTAL UNIT CELL SIZE ................................. 44 2.6.2 DESORPTION.......................................................... 45 2.6.3 MULTILAYERS.......................................................... 46 2.7 CONCLUSIONS ................................................................... 47 REFERENCES ............................................................................. 48 3 INITIAL ADSORPTION KINETICS IN A RECTANGULAR THIN CHANNEL, AND COVERAGE-DEPENDENT STRUCTURAL TRANSITION OBSERVED BY STREAMING POTENTIAL 51 PHILIPPE DEJARDIN, ELENA N. VASINA 3.1 INTRODUCTION .................................................................. 51 3.2 THE INITIAL ADSORPTION CONSTANT AND ITS LIMIT EXPRESSIONS.... 56 3.2.1 THE LOCAL INITIAL ADSORPTION CONSTANT K ( X ), ITS LIMIT EXPRESSIONS AND APPROXIMATION................. 56 3.2.2 THE MEAN ADSORPTION CONSTANT, ITS LIMIT EXPRESSIONS AND APPROXIMATION................. 59 3.2.3 EXPERIMENTAL RESULTS AND DISCUSSION...................... 61 3.3 THE STRUCTURAL TRANSITION WITH INCREASING INTERFACIAL CONCENTRATION................................................. 63 3.3.1 OBSERVATION BY STREAMING POTENTIAL........................ 64 3.3.2 DIFFERENT MODELS .................................................. 66 3.4 CONCLUSION .................................................................... 67 APPENDIX............................................................................... 68 REFERENCES ............................................................................. 69 PART II ANALYSIS OF THE STRUCTURE AT THE INTERFACE 4 DUAL POLARISATION INTERFEROMETRY: AN OPTICAL TECHNIQUE TO MEASURE THE ORIENTATION AND STRUCTURE OF PROTEINS AT THE SOLID*LIQUID INTERFACE IN REAL TIME 75 NEVILLE FREEMAN 4.1 INTRODUCTION .................................................................. 75 4.2 EXPERIMENTAL APPROACHES ADOPTED ................................... 79 4.2.1 TYPICAL APPROACH ADOPTED .................................... 79 4.2.2 EXPERIMENTAL PROTOCOLS ......................................... 79 4.2.3 ADVANTAGES.......................................................... 79 4.2.4 VERIFYING DPI AS AN EXPERIMENTAL APPROACH ............ 80 CONTENTS IX 4.3 DPI: APPLICATIONS............................................................ 80 4.3.1 INTRODUCTION........................................................ 80 4.3.2 PROTEIN ORIENTATION .............................................. 81 4.3.3 BOVINE SERUM ALBUMIN STRUCTURES AT PH 3 AND PH 7 .................................................. 82 4.3.4 PROTEIN ORIENTATION AND SUBSEQUENT ACTIVITY............ 83 4.3.5 PROTEIN STRUCTURE AND SMALL MOLECULE INTERACTIONS.... 87 4.3.6 PROTEIN STRUCTURE AND METAL ION INTERACTIONS............ 90 4.4 FUTURE DEVELOPMENTS ...................................................... 91 4.5 CONCLUSIONS ................................................................... 93 APPENDIX 1 DPI: BACKGROUND ................................................... 93 A.1.1 NEUTRON REFLECTION ............................................... 93 A.1.2 SURFACE PLASMON RESONANCE ................................... 94 APPENDIX 2 DPI: THEORY .......................................................... 95 APPENDIX 3 DPI: IMPLEMENTATION.............................................. 99 A.3.1 HARDWARE........................ .................................... 99 A.3.2 DATA ANALYSIS....................................................... 101 REFERENCES ............................................................................. 102 5 TOTAL INTERNAL REFLECTION ELLIPSOMETRY: MONITORING OF PROTEINS ON THIN METAL FILMS 105 MICHAL POKSINSKI, HANS ARWIN 5.1 INTRODUCTION .................................................................. 105 5.2 TOTAL INTERNAL REFLECTION ELLIPSOMETRY................................ 106 5.3 EXPERIMENTAL SETUP......................................................... 110 5.4 APPLICATION EXAMPLES...................................................... 113 5.5 FURTHER POSSIBILITIES ........................................................ 117 REFERENCES ............................................................................. 118 6 CONFORMATIONS OF PROTEINS ADSORBED AT LIQUID*SOLID INTERFACES 119 SYLVIE NOINVILLE, MADELEINE REVAULT 6.1 INTRODUCTION .................................................................. 119 6.2 EXPERIMENTAL TECHNIQUES................................................. 125 6.2.1 HIGH-RESOLUTION STRUCTURE OF PROTEINS..................... 125 6.2.2 SECONDARY STRUCTURE OF PROTEINS ............................. 126 6.2.3 ORIENTATION, LOCALISED STRUCTURAL INFORMATION .......... 127 6.2.4 SPATIAL DISTRIBUTION OF PROTEINS IN THE ADSORBED LAYER........................................... 128 6.2.5 SOLVATION INFORMATION........................................... 129 6.3 SURFACE EFFECTS ON BOTH PROTEIN STRUCTURE AND SOLVATION BY THE ATR-FTIR TECHNIQUE.......................... 130 6.3.1 FTIR SPECTRAL ANALYSIS.......................................... 130 XC O N T E N T S 6.3.2 PROTEINS IN SOLUTION.............................................. 132 6.3.3 SURFACE-INDUCED CONFORMATIONAL CHANGES OF A SOFT PROTEIN: BSA............................................ 134 6.3.4 SURFACE-INDUCED CONFORMATIONAL CHANGES OF A HARD PROTEIN: LYSOZYME .................................. 138 6.3.5 FOLDING OR UNFOLDING OF PROTEINS ON HYDROPHOBIC SUPPORTS....................................... 141 6.4 CONCLUSION .................................................................... 142 REFERENCES ............................................................................. 142 7 EVALUATION OF PROTEINS ON BIO-DEVICES 151 SATOKA AOYAGI, MASAHIRO KUDO 7.1 INTRODUCTION .................................................................. 151 7.2 TIME-OF-FLIGHT SECONDARY ION MASS SPECTROMETRY (TOF-SIMS) ................................................................... 153 7.2.1 PRINCIPLES OF TOF-SIMS......................................... 153 7.2.2 TOF-SIMS SPECTRA AND SECONDARY-ION IMAGES.......... 156 7.2.3 DATA ANALYSIS....................................................... 157 7.3 ANALYSIS OF PROTEINS ON BIO-DEVICES ................................... 161 7.3.1 CHARACTERIZATION OF PROTEINS ON SUBSTRATES ............... 161 7.3.2 INVESTIGATION OF CONFORMATION AND ORIENTATION OF PROTEINS ON SUBSTRATES....................................... 164 7.3.3 IMAGING OF PROTEIN DISTRIBUTION ............................. 165 7.3.4 OTHER POINTS AND FUTURE DIRECTIONS......................... 168 7.4 SUMMARY....................................................................... 169 REFERENCES ............................................................................. 169 PART III SOME APPLICATIONS 8 FIBRONECTIN AT POLYMER SURFACES WITH GRADUATED CHARACTERISTICS 175 TILO POMPE, LARS RENNER, CARSTEN WERNER 8.1 INTRODUCTION .................................................................. 175 8.2 GRADATED SUBSTRATE PHYSICOCHEMISTRY ................................ 177 8.3 FIBRONECTIN EXCHANGE AT A CONSTANT SURFACE CONCENTRATION... 181 8.4 FIBRONECTIN EXCHANGE AT VARIABLE SURFACE CONCENTRATIONS..... 188 8.5 RELEVANCE OF THE INTERFACIAL CONSTRAINTS OF FIBRONECTIN FOR CELL-MATRIX ADHESION............................. 195 REFERENCES ............................................................................. 197 CONTENTS XI 9 DEVELOPMENT OF CHEMICAL MICROREACTORS BY ENZYME IMMOBILIZATION ONTO TEXTILES 199 CHRISTOPHE INNOCENT, PATRICK SETA 9.1 INTRODUCTION .................................................................. 199 9.2 NONCONDUCTING CELLULOSIC TEXTILES..................................... 201 9.2.1 PEPSIN AND TRYPSIN IMMOBILIZATION ON COTTON.......... 201 9.2.2 IMMOBILIZATION OF URICASE AND XANTHINE OXIDASE ON ION-EXCHANGING TEXTILES.................................... 211 9.2.3 UREASE ELECTRODIALYSIS COUPLING ............................. 223 9.3 ELECTRON-CONDUCTING TEXTILE............................................. 227 9.3.1 ENZYME IMMOBILIZATION ON CARBON FELT .................. 227 9.3.2 ELECTROCATALYSIS COUPLING WITH ENZYME-CONDUCTING TEXTILE CATALYTIC REACTIVITY .................................... 238 REFERENCES ............................................................................. 242 10 APPROACHES TO PROTEIN RESISTANCE ON THE POLYACRYLONITRILE-BASED MEMBRANE SURFACE: AN OVERVIEW 245 LING-SHU WAN, ZHI-KANG XU, XIAO-JUN HUANG 10.1 INTRODUCTION .................................................................. 245 10.2 COPOLYMERIZATION PROCEDURES........................................... 246 10.3 POLY(ETHYLENE GLYCOL) TETHERING ......................................... 252 10.4 PHYSICAL ADSORPTION........................................................ 257 10.5 BIOMACROMOLECULE IMMOBILIZATION.................................... 259 10.6 BIOMIMETIC MODIFICATION ................................................. 263 10.7 CONCLUSION .................................................................... 266 REFERENCES ............................................................................. 268 11 MODULATION OF THE ADSORPTION AND ACTIVITY OF PROTEIN/ENZYME ON THE POLYPROPYLENE MICROPOROUS MEMBRANE SURFACE BY SURFACE MODIFICATION 271 QIAN YANG, ZHI-KANG XU, ZHENG-WEI DAI 11.1 SURFACE MODIFICATIONS FOR REDUCING NONSPECIFIC PROTEIN ADSORPTION ......................................................... 271 11.1.1 PLASMA TREATMENT................................................. 273 11.1.2 ULTRAVIOLET (UV) MODIFICATION................................ 276 11.1.3 * -RAY-INDUCED MODIFICATION .................................. 282 11.1.4 OZONE METHOD..................................................... 285 11.2 SURFACE-MODIFIED PPMMS FOR ENZYME IMMOBILIZATION ......... 286 11.2.1 PHYSICAL ADSORPTION/ENTRAPMENT............................ 287 11.2.2 COVALENT BINDING.................................................. 289 11.2.3 SITE-SPECIFIC IMMOBILIZATION .................................. 294 11.3 CONCLUSIONS ................................................................... 295 REFERENCES ............................................................................. 295 XII CONTENTS 12 NONBIOFOULING SURFACES GENERATED FROM PHOSPHORYLCHOLINE-BEARING POLYMERS 299 YASUHIKO IWASAKI, NOBUO NAKABAYASHI, KAZUHIKO ISHIHARA 12.1 INTRODUCTION .................................................................. 299 12.2 FORCES INVOLVED IN PROTEIN ADSORPTION............................... 300 12.3 DESIGN OF PHOSPHORYLCHOLINE-BEARING SURFACES ................... 302 12.4 MECHANISM OF RESISTANCE TO PROTEIN ADSORPTION ON THE MPC POLYMER SURFACE............................................ 303 12.5 FUNDAMENTAL INTERACTIONS BETWEEN MPC POLYMERS AND PROTEINS................................................................... 310 12.6 RECENT DESIGNS OF NONFOULING PHOSPHORYLCHOLINE SURFACES WITH WELL-DEFINED STRUCTURES ............................... 312 12.7 CONTROL OF CELL*MATERIAL INTERACTIONS ON A PHOSPHORYLCHOLINE POLYMER NONFOULING SURFACE........... 314 12.7.1 CELL MANIPULATION ON A WELL-DEFINED PHOSPHORYLCHOLINE POLYMER BRUSH.......................... 315 12.7.2 SELECTIVE CELL ATTACHMENT TO A BIOMIMETIC POLYMER SURFACE THROUGH THE RECOGNITION OF CELL-SURFACE TAGS .......... 318 12.8 CONCLUSION .................................................................... 321 REFERENCES ............................................................................. 321 SUBJECT INDEX 327
any_adam_object 1
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oclc_num 71255557
open_access_boolean
owner DE-M49
DE-BY-TUM
DE-703
DE-11
owner_facet DE-M49
DE-BY-TUM
DE-703
DE-11
physical XV, 330 S. Ill., graph. Darst. 235 mm x 155 mm
publishDate 2006
publishDateSearch 2006
publishDateSort 2006
publisher Springer
record_format marc
series2 Principles and Practice
spellingShingle Proteins at solid-liquid interfaces
Absorption physiology
Adsorption
Protein Conformation
Proteins
Proteins pharmacokinetics
Solid-liquid interfaces
Proteine (DE-588)4076388-2 gnd
Flüssigkeit (DE-588)4017621-6 gnd
Adsorption (DE-588)4000536-7 gnd
Festkörper (DE-588)4016918-2 gnd
Grenzfläche (DE-588)4021991-4 gnd
subject_GND (DE-588)4076388-2
(DE-588)4017621-6
(DE-588)4000536-7
(DE-588)4016918-2
(DE-588)4021991-4
(DE-588)4143413-4
title Proteins at solid-liquid interfaces
title_auth Proteins at solid-liquid interfaces
title_exact_search Proteins at solid-liquid interfaces
title_full Proteins at solid-liquid interfaces Philippe Déjardin (ed.)
title_fullStr Proteins at solid-liquid interfaces Philippe Déjardin (ed.)
title_full_unstemmed Proteins at solid-liquid interfaces Philippe Déjardin (ed.)
title_short Proteins at solid-liquid interfaces
title_sort proteins at solid liquid interfaces
topic Absorption physiology
Adsorption
Protein Conformation
Proteins
Proteins pharmacokinetics
Solid-liquid interfaces
Proteine (DE-588)4076388-2 gnd
Flüssigkeit (DE-588)4017621-6 gnd
Adsorption (DE-588)4000536-7 gnd
Festkörper (DE-588)4016918-2 gnd
Grenzfläche (DE-588)4021991-4 gnd
topic_facet Absorption physiology
Adsorption
Protein Conformation
Proteins
Proteins pharmacokinetics
Solid-liquid interfaces
Proteine
Flüssigkeit
Festkörper
Grenzfläche
Aufsatzsammlung
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work_keys_str_mv AT dejardinphilippe proteinsatsolidliquidinterfaces

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