Meier, W. P. & Knoll, W. ed.
Polymer Membranes/Biomembranes
Springer-Verlag 2009.12
238 pp.(H)
ISBN 3-642-10478-9
28,500円
Contents
1. Membranes from Polymerizable Lipids/ 2. Polymer Stabilized Lipid Membranes: Langmuir Monolayers/ 3. Polymer-Tethered Bimolecular Lipid Membranes/ 4. Biomimetic Block CopolymerMembranes/ 5. Biohybrid and Peptide-Based Polymer Vesicles/ 6. Comparison of Simulations of Lipid Membranes with Membranes of Block Copolymers/ Index/ *
Gorley , S. V. ed.
Handbook of Membrane Research
Properties, Performance and Applications
Nova Science Pub. 2009.10
(H)
ISBN 1-60741-638-7
26,800円
Contents
1.Pd-Based Membranes Synthesis and their Application in Membrane Reactors/ 2.Recalcitrant Industrial Wastewater Treatment by Membrane Bioreactor (MBR)/ 3.Applications of Electrospun Nanofiber Membranes for Bioseparations/ 4.Modulation of Membrane-Protein Interactions Applied to Whey Fractionation/ 5.Porous Glass Membranes: Preparation, Characterization and Applications/ 6.Membrane Cleaning: A Key for Sustainable Production in Dairy Industry/ 7.The Capability of X-Ray Photoelectron Spectroscopy in the Characterization of Membranes: Correlation between Surface Chemical and Transport Properties in Polymeric Membranes/ 8.Applications of Electromembrane Processes to the Production of Nutraceuticals or Functional Foods/ 9.Transport Modeling in Nanofiltration/ 10.Modeling, Optimization, and Control in Dead-End Ultra Filtration/ 11.Application of Dye Affinity Membrane Chromatography to Protein Purification from Raw Materials: Comparison with Soft-Gel Matrices/ 12.Pervaporation and Permeation Taking Advantage of Ionic Liquids/ 13.Application of Supported Ionic Liquid Membranes to Lactic Acid Recovery/ 14.Materials Design of Gas Separation Polymer Membranes/ 15.Track-etch PET Membrane with Gradients of Pore Density and Pore Size: Theoretical Analysis of Linear Gradient Permeability Membrane in Flow Filed-Flow Fractionation/ 16.Composite Palladium Membranes with Improved Durability toward Hydrogen Embrittlement/ 17.Recovery of Fe(III) from Acidic Solutions by SLM using Cyphos IL 101 Ionic Liquid as Carrier/ Index/ *
Paun, G. et al. ed.
The Oxford Handbook of Membrane Computing
Oxford U.P. 2010.1
696 pp.(H)
ISBN 0-19-955667-9
18,200円
Contents
1. An introduction to and an overview of membrane computing/ 2. Cell biology for membrane computing/ 3. Computability elements for membrane computing/ 4. Catalytic P systems/ 5. Communication P systems/ 6. P automata/ 7. P systems with string objects/ 8. Splicing P systems/ 9. Tissue and population P systems/ 10. Conformon P systems/ 11. Active membranes/ 12. Complexity - Membrane division, membrane creation/ 13. Spiking neural P systems/ 14. P systems with objects on membranes/ 15. Petri nets and membrane computing/ 16. Semantics of P systems/ 17. Software for P systems/ 18. Probabilistic/stochastic models/ 19. Fundamentals of metabolic P systems/ 20. Metabolic P dynamics/ 21. Membrane algorithms/ 22. Membrane computing and computer science/ 23. Other developments/ Index/
* Part of the broader research field of natural computing, Membrane Computing is an area within computing science that aims to abstract computing ideas and models from the structure and functioning of living cells, as well as from the way the cells are organized in tissues or higher order structures. It studies models of computation (known as P systems) inspired by the biochemistry of cells, in particular by the role of membranes in the compartmentalization of living cells into "protected reactors". *
Liu, A. L.
Advances in Planar Lipid Bilayers and Liposomes Vol.9
Academic Press 2009.8
326 pp.(H)
ISBN 0-12-374822-4
22,200円
Contents
1. Current perspectives in liposome-encapsulated hemoglobin as oxygrn carrier/ 2. Electric conductance of planar lipid bilayer as a tool for the study of membrane pore selectivity and blockade/ 3. Physiochemical and pharmacokinetic characterization of ultradeformable vesicles using calcein as hydrophilic fluorescent marker/ 4.Electrical methods for determining surface charge density and electrolyte composition at the lipid bilayer solution interface/ 5. Micropatterned lipid bilayer membranes on solid sub strates/ 6. Salt-induced morphological transitions in non-equimolar catanionic systems: spontaneous formation of blastulae aggregates/ 7. Transformation between liposomes and cubic phases of biological lipid membranes induced by modulation of electrostatic interactions/ 8.The impact of astrocytes in the clearance of neurotransmitters by uptake and inactivation/ 9. Stability of the inverted hexagonal phase/ 10. Attraction of like-charged surfaces mediated by spheroidal nanoparticles with spatially distributed electric charge/ Index/ *
Liu, A. L. ed.
Advances in Planar Lipid Bilayers and Liposomes Vol.10
Academic Press 2009.11
250 pp.(H)
ISBN 0-12-374823-2
21,800円
Contents
1. Ion Permeability of Membranes: From Lipid Bilayers to Biological Membranes/ 2. Shape transformations of amphiphilc membranes/ 3. Stability and function of membrane nanotubes/ 4. Coupling active forces and membrane shape and composition: instabilities and wave/ 5. Lipid vesicles as tools in nanotoxicity studies/ 6. Form and Function of Membranes and their Phospholipids in Rat Salivary Glands: Gozdz/ Index/ *
Frisco, P.
Computing with Cells
Advances in Membrane Computing
Oxford U.P. 2009.6
336 pp.(H)
ISBN 0-19-954286-4
12,100円
Contents
1. Introduction/ 2. Biology: an introduction to membranes in cells/ 3. Theoretical computer science: an introduction/ 4. Petri nets/ 5. Symport/Antiport/ 6. Catalysts/ 7. Spiking/ 8. Conformons/ 9. Splicing/ 10. Dynamic topological structure/ Bibliography/ Index/
* Membrane systems are a new class of distributed and parallel model of computation inspired by the subdivision of living cells into compartments delimited by membranes. Their hierarchal internal structure, their locality of interactions, their inherent parallelism and also their capacity to create new compartments, represent the distinguishing hallmarks of membrane systems. *
Ehnholm, C. ed.
Cellular Lipid Metabolism
Springer-Verlag 2009.7
394 pp.(H)
ISBN 3-642-00299-4
24,200円
Contents
1.The Lipid Droplet: a Dynamic Organelle, not only Involved in the Storage and Turnover of Lipids/ 2.Oxysterols and Oxysterol-Binding Proteins in Cellular Lipid Metabolism/ 3.Cellular Lipid Traffi c and Lipid Transporters: Regulation of Effl ux and HDL Formation/ 4.Bile Acids and Their Role in Cholesterol Homeostasis/ 5.Cholesterol Traffi cking in the Brain/ 6.Intracellular Cholesterol Transport/ 7.Role of the Endothelium in Lipoprotein Metabolism/ 8.Receptor-Mediated Endocytosis and Intracellular Traffi cking of Lipoproteins/ 9.Angiopoietin-Like Proteins and Lipid Metabolism/ 10.Thyroid Hormones and Lipid Metabolism: Thyromimetics as Anti-Atherosclerotic Agents?/ 11.Adipokines: Regulators of Lipid Metabolism/ 12.Cellular Cholesterol Transport - Microdomains, Molecular Acceptors and Mechanisms/ 13.The Ins and Outs of Adipose Tissue/ Index/ *
Hinterdorfer, P. & van Oijen, A. ed.
Handbook of Single-Molecule Biophysics
単一分子の生物物理ハンドブック
Springer-Verlag 2009.7
626 pp.(H)
ISBN 0-387-76496-8
31,400円
Contents
* この十年間で数多くの新しい生物物理実験法の進歩が見られました。本ハンドブックは、蛍光検出法、原子間力顕微鏡法、光と磁気トラッピング法を含む単一生物分子のモニターと操作を実施する実験技術を解説します。超解像度や機能的画像法における単一分子技法の利用法、折りたたみ、タンパク質やDNAの高分子物理学、酸素と生化学、生体膜中の単一分子、生体細胞の単一分子技法のような生物分子の物理学的特性研究、単一分子生物物理学とナノサイエンスとの統合などが討議されます。
1. Single-molecule fluorescence tracking/ 2. Single molecule studies in the membrane/ 3. Single-molecule imaging in live cells/ 4. Superresolution imaging/ 5. Fluorescence Resonance Energy Transfer/ 6. Single-molecule enzymology/ 7. Rotary proteins/ 8. Fluorescence Correlation Spectroscopy/ 9. Advanced Concepts of Fluorescence Fluctuation Spectroscopy/ 10. Nucleic-acid analysis at the single-molecule level/ 11. Nanopores: Geneneration and Single-Molecule Applications/ 12. Optical trapping/ 13. Magnetic tweezing/ 14. Protein/DNA unfolding/ 15. Single molecule recognition/ 16. Nano-scale AFM imaging/ 17. High Speed AFM/ 18. Recognition imaging/ 19. Atomic force microscopy of protein-protein interactions/ 20. A New Approach to Analysis of Single Molecule Force Measurements/ 21. Single Molecule Recognition: Extracting Information from Individual Binding Events and Their Correlation/ Index/ *
635-15 登録日 10.04.13
