Download Proteins at Interfaces III State of the Art by Thomas Horbett, John L. Brash, Willem Norde PDF

By Thomas Horbett, John L. Brash, Willem Norde

content material: CONTENTS ; PREFACE ; 1. PROTEINS AT INTERFACES III: INTRODUCTORY evaluation ; WILLEM NORDE, THOMAS A. HORBETT, AND JOHN L. BRASH ; 1. PHYSICOCHEMICAL facets ; 2. OPTIMIZING THE BIOAFFINITY interplay among HIS-TAG PROTEINS AND NI(II) ; floor websites ; LAURA E. VALENTI, ELISA HERRERA, MARIA FERNANDA STRAGLIOTTO, VITOR L. MARTINS, ; ROBERTO M. TORRESI, AND CARLA E. GIACOMELLI ; three. PROTEIN?BIOCERAMIC INTERACTIONS on the INTERFACE ; SUNITA PREM VICTOR AND CHANDRA P. SHARMA ; four. SOLID-STATE NMR experiences OF BIOMINERALIZATION PEPTIDES AND PROTEINS ; ADRIENNE ROEHRICH, JASON ASH, ARIEL ZANE, DAVID L. MASICA, JEFFREY J. grey, ; GIL GOOBES, AND GARY DROBNY ; five. MECHANISMS OF FIBRINOGEN ADSORPTION ON MICA ; ZBIGNIEW ADAMCZYK, MONIKA WASILEWSKA, MALGORZATA NATTICH-RAK, AND ; JAKUB BARBASZ ; 6. AFM-BASED FRICTION strength SPECTROSCOPY: a unique method FOR THE ; research OF THE power AND LATERAL DIFFUSION OF PROTEINACEOUS movies ; JAVIER SOTRES, LISELOTT LINDH, OLOF SVENSSON, ALEJANDRO BARRANTES, AND ; THOMAS ARNEBRANT ; 7. SIMULTANEOUS as opposed to SEQUENTIAL ADSORPTION OF ?-CASEIN/SDS combos. ; comparability OF WATER/AIR AND WATER/HEXANE INTERFACES ; A. DAN, G. GOCHEV, CS. KOTSMAR, J. okay. FERRI, A. JAVADI, M. KARBASCHI, J. KRAGEL, ; R. WUSTNECK, AND R. MILLER ; eight. keep an eye on OF PROTEIN ADSORPTION AND cellphone ADHESION by means of combined POLYMER ; BRUSHES MADE by means of THE "GRAFTING-TO" method ; EVA BITTRICH, SINA BURKERT, KLAUS-JOCHEN EICHHORN, MANFRED STAMM, AND ; PETRA UHLMANN ; 2. machine SIMULATION OF THE ADSORPTION OF PROTEINS TO good ; SURFACES AND similar EXPERIMENTAL paintings ; nine. figuring out PROTEIN-SURFACE INTERACTIONS on the ATOMISTIC point via ; THE SYNERGISTIC improvement OF EXPERIMENTAL AND MOLECULAR SIMULATION ; equipment ; T. ABRAMYAN, G. COLLIER, T. G. KUCUKKAL, X. LI, J. A. SNYDER, A. A. THYPARAMBIL, ; N. A. VELLORE, Y. WEI, J. A. YANCEY, S. J. STUART, AND R. A. LATOUR ; 10. PROTEINS AND PEPTIDES AT GOLD SURFACES: INSIGHTS FROM ATOMISTIC ; SIMULATIONS ; L. BELLUCCI, G. BRANCOLINI, A. CALZOLARI, O. CARRILLO PARRAMON, S. CORNI, AND ; R. DI FELICE ; three. organic functionality OF ; ADSORBED PROTEINS ; eleven. PROTEIN?CARBOHYDRATE INTERACTIONS at the SURFACES OF GLYCOSYLATED ; MEMBRANES ; JIA LUO AND ZHI-KANG XU ; 12. PROTEIN floor INTERACTIONS AND BIOCOMPATIBILITY: A 40 12 months ; viewpoint ; JOHN L. BRASH ; thirteen. rules OF PROTEIN/SURFACE INTERACTIONS via floor CHEMICAL ; amendment AND TOPOGRAPHIC layout ; DAN LI AND HONG CHEN ; 14. MECHANISMS OF THE overseas physique reaction TO RFGD PLASMA-GENERATED ; PEO-LIKE movies ; LUISA M. SZOTT AND THOMAS A. HORBETT ; 15. impact OF MICROTOPOGRAPHY ON FIBROCYTE RESPONSES AND FIBROTIC TISSUE ; REACTIONS on the INTERFACE ; DAVID W. BAKER AND LIPING TANG ; sixteen. particular AND NONSPECIFIC INTERACTIONS among SALIVARY PROTEINS AND ; STREPTOCOCCUS MUTANS ; CHUN-PING XU, HENK J. BUSSCHER, HENNY C. VAN DER MEI, AND WILLEM NORDE ; 17. dimension OF TIME-DEPENDENT useful job OF ADSORBED ; FIBRINOGEN AND PLATELET ADHESION ON fabric SURFACES ; LI-CHONG XU, PRANAV SOMAN, BRYAN M. SCHEETZ, AND CHRISTOPHER A. SIEDLECKI ; 18. knowing THE function OF EXOGENOUS AND ENDOGENOUS SURFACTANTS IN gasoline ; EMBOLISM ; JOSHUA W. LAMPE, PORTONOVO S. AYYASWAMY, AND DAVID M. ECKMANN ; 19. ANNEXIN A5 BINDING AND REBINDING TO combined PHOSPHOLIPID MONOLAYERS ; STUDIED through SPR AND AFM ; XUEZHONG DU, DAVID W. BRITT, AND VLADIMIR HLADY ; 20. SOIL BINDS PRIONS AND impacts THEIR BIOLOGIC houses ; S. L. BARTELT-HUNT, S. E. SAUNDERS, AND J. C. BARTZ ; 21. ORIENTATION OF ADSORBED ANTIBODIES: IN SITU tracking by means of QCM AND ; RANDOM SEQUENTIAL ADSORPTION MODELING ; CHRISTINE DUPONT-GILLAIN ; 22. MATERIAL-DRIVEN FIBRONECTIN FIBRILLOGENESIS ; MARCO CANTINI, CRISTINA GONZALEZ-GARCIA, VIRGINIA LLOPIS-HERNANDEZ, AND ; MANUEL SALMERON-SANCHEZ ; 23. influence OF ALBUMIN ADSORPTION ON BIOTRIBOLOGICAL houses of synthetic ; JOINT fabrics ; A. P. SERRO, R. COLACO, AND B. SARAMAGO ; 24. SUSTAINABLE progress issue supply via AFFINITY-BASED ADSORPTION TO ; STARPEG-HEPARIN HYDROGELS ; A. ZIERIS, S. PROKOPH, ok. R. LEVENTAL, P. B. WELZEL, okay. CHWALEK, okay. SCHNEIDER, ; U. FREUDENBERG, AND C. WERNER ; 25. STRUCTURAL perception OF ANTIBODY ADSORPTION FOR better BIOACTIVITY AND ; DETECTION ; XIUBO ZHAO, MOHAMMED YASEEN, FANG PAN, AND JIAN R. LU ; four. RESISTANCE TO PROTEIN ADSORPTION ; 26. SYNTHESIS OF GLYCOCALYX-MIMETIC SURFACES AND THEIR particular AND ; NONSPECIFIC INTERACTIONS WITH PROTEINS AND BLOOD ; KAI YU AND JAYACHANDRAN N. KIZHAKKEDATHU ; 27. rationalization OF PROTEIN ADSORPTION AT POLYMER BRUSH SURFACES in keeping with ; WATER constitution SURROUNDING the skin ; YUUKI INOUE AND KAZUHIKO ISHIHARA ; 28. POLY(ETHYLENE GLYCOL) AND POLY(CARBOXY BETAINE) dependent NONFOULING ; ARCHITECTURES: evaluation AND present EFFORTS ; MOJTABA BINAZADEH, MARYAM KABIRI, AND LARRY D. UNSWORTH ; 29. PEPTIDE ADSORPTION and serve as AT PENDANT PEO BRUSH LAYERS ; KARL F. SCHILKE AND JOSEPH MCGUIRE ; 30. POLYACRYLAMIDE: review OF ULTRALOW FOULING homes OF a conventional ; fabric ; LINGYUN LIU, QINGSHENG LIU, AND ANURADHA SINGH ; 31. PROTEIN-REPELLENT FUNCTIONALIZABLE SURFACES according to COVALENTLY BONDED ; PHOSPHOLIPIDS WITH PHOSPHORYLCHOLINE HEAD ; LYNDA FEREZ, THIERRY THAMI, LARA TAUK, EDEFIA AKPALO, VALERIE FLAUD, ; ARMAGAN KOCER, JEAN-MARC JANOT, AND PHILIPPE DEJARDIN ; five. EXPERIMENTAL innovations FOR THE examine OF PROTEINS AT INTERFACES ; 32. HIGH-THROUGHPUT learn OF PROTEIN-SURFACE INTERACTIONS utilizing A floor ; PLASMON RESONANCE IMAGING gear ; YUSUKE ARIMA, RIKA ISHII, ISAO HIRATA, AND HIROO IWATA ; 33. PROBING PROTEIN organization WITH NANO- AND MICRO-SCALE buildings WITH ; TOF-SIMS ; IVAN M. KEMPSON, YEUKUANG HWU, AND CLIVE A. PRESTIDGE ; 34. delicate X-RAY SPECTROMICROSCOPY OF PROTEIN INTERACTIONS WITH ; PHASE-SEGREGATED POLYMER SURFACES ; ADAM P. HITCHCOCK, BONNIE O. LEUNG, JOHN L. BRASH, ANDREAS SCHOLL, AND ; ANDREW DORAN ; 35. CHARACTERIZING THE constitution OF SURFACE-IMMOBILIZED PROTEINS: A floor ; research procedure ; JOE E. BAIO, TOBIAS WEIDNER, AND DAVID G. CASTNER ; 36. PROTEIN styles FABRICATED by way of AFFINITY-BASED floor LIGAND choice ; FROM PROTEIN resolution combinations ON A POLYMER HYDROGEL SUBSTRATE ; HIRONOBU TAKAHASHI, DAVID G. CASTNER, AND DAVID W. GRAINGER ; 37. PROTEOMIC methods TO represent SURFACE-BOUND PROTEINS AND ; MATERIAL-MEDIATED mobile PROTEINS ; YAO FU AND WEIYUAN JOHN KAO ; 38. constitution AND balance OF PROTEINS INTERACTING WITH NANOPARTICLES ; LUIGI CALZOLAI, STEFANIA LAERA, GIACOMO CECCONE, AND FRANCOIS ROSSI ; EDITORS' BIOGRAPHIES ; INDEXES ; writer INDEX ; topic INDEX

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Proteins at Interfaces III State of the Art

Content material: CONTENTS ; PREFACE ; 1. PROTEINS AT INTERFACES III: INTRODUCTORY evaluation ; WILLEM NORDE, THOMAS A. HORBETT, AND JOHN L. BRASH ; 1. PHYSICOCHEMICAL features ; 2. OPTIMIZING THE BIOAFFINITY interplay among HIS-TAG PROTEINS AND NI(II) ; floor websites ; LAURA E. VALENTI, ELISA HERRERA, MARIA FERNANDA STRAGLIOTTO, VITOR L.

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Extra resources for Proteins at Interfaces III State of the Art

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In fact, one advantage of this biofunctionalization procedure is that many commercially available protein expression plasmid vectors include His6 tag. This strategy relies on the high affinity of the imidazole groups of the tag for metal cations such as Ni2+, Cu2+, CO2+ or Zn2+ involving a chelate complex formation (22–25). Although the tag may be introduced at different positions of the primary structure, His-Ni(II) interaction involves the imidazole nitrogen close to the N-terminal (22). Therefore, the tag needs to be engineered on the N-terminal of the protein to induce a stable anchoring to Ni(II) modified substrate.

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