04218nam 2200637Ia 450 991045268210332120200520144314.01-61761-752-0(CKB)2550000001040618(EBL)3017755(SSID)ssj0000826948(PQKBManifestationID)12337587(PQKBTitleCode)TC0000826948(PQKBWorkID)10819920(PQKB)10802694(MiAaPQ)EBC3017755(Au-PeEL)EBL3017755(CaPaEBR)ebr10654726(OCoLC)923653569(EXLCZ)99255000000104061820091216d2010 uy 0engur|n|---|||||txtccrBioencapsulation in silica-based nanoporous sol-gel glasses[electronic resource] /Bouzid Menaa, Farid Menaa and Olga ShartsNew York Nova Science Publishersc20101 online resource (84 p.)Nanotechnology science and technologyDescription based upon print version of record.1-60876-989-5 Includes bibliographical references (p. [51]-66) and index.""BIOENCAPSULATION IN SILICA-BASED NANOPOROUS SOL-GEL GLASSES ""; ""BIOENCAPSULATION IN SILICA-BASED NANOPOROUS SOL-GEL GLASSES ""; ""CONTENTS""; ""PREFACE""; ""ABSTRACT ""; ""1. INTRODUCTION""; ""2. BIOENCAPSULATION VIA SOL-GEL PROCESS IN SILICA-BASED MATERIALS: METHOD, MATERIALS, BIOAPPLICATIONS, AND CHARACTERIZATION TECHNIQUES ""; ""2.1. Protein Bioencapsulation via Sol-Gel Process""; ""2.2. Materials and Bioapplications""; ""2.3. Probing the Silica-Protein Interactions and Protein-Folding""; ""2.3.1. Characterization of the Silica Host Matrix""""2.3.2. Characterizing the Protein Folding in Nanoporous Sol-Gel Glasses """"3. PARAMETERS INFLUENCING THE PROTEIN CONFORMATION IN NANOPOROUS SILICA-BASED SOL-GEL GLASSES ""; ""3.1. INTRODUCTION TO THERMODYNAMICS� DRIVING FORCES AND INTERACTIONS INFLUENCING THE PROTEIN FOLDING IN SILICA-BASED NANOPOROUS MATERIALS""; ""3.2. The Surface Hydration and Hydrophobicity Influence the Protein Folding in Nanoporous Sol-Gel Glasses ""; ""3.2.1. Hydrophobic Effects on Protein Conformation Induced by Silica Glass Surface Modification with Hydrophobic Organosilanes Precursors """"3.2.2. Hydrophobic Effects Induced by the Decrease of siloxane �[O-Si-O]- Network Dimension by Glass Surface Modification with Multiple Hydrophobic Alkyl Groups Attached at the Silicon of Organosilane Precursors""""3.2.3. Solute Effects and Hofmeister Ions Effects""; ""3.3. STERIC EFFECTS INDUCED BY THE CHOICE OF CROWDED SILANE MODIFIERS IN TMOS- DERIVED SOL-GEL GLASSES THE HOST MATRIX ""; ""3.4. INFLUENCE OF THE PORE SIZE, PORE SHAPE AND SURFACE AREA OF THE SILICA-BASED HOST MATRIX ON PROTEIN FOLDING ""; ""3.5. THERMAL STABILITY OF PROTEINS CONFINED IN THE POROUS HOST MATRIX """"4. ENHANCING THE PROTEIN FOLDING BY INTRODUCING AND ASSOCIATING HYDROPHOBIC AND STERIC EFFECTS IN MODIFIED SILICA-BASED POROUS GLASSES """"4.1. INCORPORATING FLUORO-BASED ORGANOSILANES IN TO FORM SUPERHYDROPHOBIC CROWDED ORGANICALLY MODIFIED SILICA BASED HOST MATRICES""; ""4.2. INCORPORATING PHOSPHONATE GROUPS IN HYDROPHOBIC SILICA NETWORK ""; ""5. EMERGING TECHNIQUES FOR A BETTER UNDERSTANDING OF PROTEIN INTERACTIONS AND CONFORMATIONS IN NANOPOROUS SOL-GEL GLASSES ""; ""5.1. IN-SITU MAS NMR""; ""5.2. FLUORO-RAMAN SPECTROSCOPY""; ""CONCLUSION ""; ""REFERENCES""; ""INDEX ""Nanotechnology science and technology series.BiocolloidsProtein foldingSilica gelElectronic books.Biocolloids.Protein folding.Silica gel.612/.01575Menaa Bouzid905184Menaa Farid905185Sharts Olga905186MiAaPQMiAaPQMiAaPQBOOK9910452682103321Bioencapsulation in silica-based nanoporous sol-gel glasses2024469UNINA