Nantilus
Research methods in biomineralization science
Enregistré dans:
| Autres auteurs : | |
|---|---|
| Format : | Livre |
| Langue : | anglais |
| Titre complet : | Research methods in biomineralization science / edited by James J. De Yoreo, ... |
| Publié : |
Amsterdam :
Elsevier B. V.
, 2013, cop. 2013 |
| Collection : | Methods in enzymology (Online) ; 532 |
| Accès en ligne : |
Accès Nantes Université
|
| Sujets : | |
| Documents associés : | Autre format:
Research methods in biomineralization science |
- Section I : Investigating solution chemistry, structure, and nucleation
- Chap. 1. Developement of accurate force fields for the simulation of biomineralization
- Chap. 2. The integration of ion potentiometric measurements with chemical, structural, and morphological analysis to follow mineralization ractions in solution
- Chap. 3. Investigating the early stages of mineral precipitation by potentiometric titration and analytical ultracentrifugation
- Chap. 4. Replica exchange methods in biomineral simulations
- Chap. 5. SAXS in inorganic and bioinspired research
- Chap. 6. In situ solution study of calcium phosphate crystallization kinetics
- Section II : Probing structure and dynamics at surfaces and interfaces
- Chap. 7. Design, fabrication, and applications of in situ fluid cell TEM
- Chap. 8. X-Ray absorption spectroscopy for the structural investigation of self-assembled-monolyaer-directed mineralization
- Chap. 9. Cryo-TEM analysis of collagen fibrillar structure
- Section III : Biomimetic crystallization techniques in vitro
- Chap. 10. Preparation of organothiol self-assembled monolayers for use in templated crystallization
- Chap. 11. Experimental techniques for the growth and characterization of silica biomorphs and silica gardens
- Chap. 12. Precipitation in liposomes as a model for intracellular biomineralization
- Chap. 13. Polymer-mediated growth of crystals and mesocrystals
- chap. 14. Phage display for the discovery of hydroxyapatite-associated peptides
- Section IV : Protein structure, interactions adn function
- Chap. 15. Quantitatively and kinetically identifying binding motifs of amelogenin proteins to mineral crystals though biochemical and spectroscopic assays
- Chap. 16. Using the Rosetta Surface algorithm to predict protein structure at mineral surfaces
- Chap. 17. Invesitgating protein function in biomineralized tissues using molecular biology techniques
- Section V : Mapping biomineral morphology and ultrastructure
- Chap. 18. Imaging the nanostructure of bone and dentin through
- Chap. 19. Synchrotron X-Ray nanomechanical iamging of mineralized fiber composites
- Section VI : Mapping mineral chemistry
- Chap. 20. Application to total X-Ray scattering methods and pair distribution function analysis for study of structure of biominerals
- Cahp. 21. X-Ray microdiffraction of biominerals
- Chap. 22. FTIR and Raman studies of strcuture and bonding in mineral and organic-mineral composites
- Chap. 23. A mixed flow reactor method to synthesize amorphous calcium carbonate under controlled chemical conditions