Biomedical Engineering Reference
In-Depth Information
3. Wilson DS, Szostak JW (1999) In vitro selection of functional nucleic acids. Annu Rev
Biochem 68:611-647
4. Rosi NL, Mirkin CA (2005) Nanostructures in biodiagnostics. Chem Rev 105:1547-1562
5. Katz E, Willner I (2004) Nanobiotechnology: integrated nanoparticle-biomolecule hybrid
systems: synthesis, properties, and applications. Angew Chem Int Ed 43:6042-6108
6. Liu J, Cao Z, Lu Y (2009) Functional nucleic acid sensors. Chem Rev 109:1948-1998
7. Wang H, Yang RH, Yang L, Tan WH (2009) Nucleic acid conjugated nanomaterials for
enhanced molecular recognition. ACS Nano 3:2451-2460
8. Li D, Song SP, Fan CH (2010) Target-responsive structural switching for nucleic acid-based
sensors. Acc Chem Res 43:631-641
9. de Lima MCP, Simoes S, Pires P, Faneca H, Duzgunes N (2001) Cationic lipid-DNA complexes
in gene delivery: from biophysics to biological applications. Adv Drug Deliv Rev 47:277-294
10. Chesnoy S, Huang L (2000) Structure and function of lipid-DNA complexes for gene delivery.
Annu Rev Biophys Biomol Struct 29:27-47
11. Bangham AD, Standish MM, Watkins JC (1965) Diffusion of univalent ions across lamellae of
swollen phospholipids. J Mol Biol 13:238-252
12. Jesorka A, Orwar O (2008) Liposomes: technologies and analytical applications. Annu Rev
Anal Chem 1:801-832
13. Shimomura M, Sawadaishi T (2001) Bottom-up strategy of materials fabrication: a new trend
in nanotechnology of soft materials. Curr Opin Colloid Interface Sci 6:11-16
14. Oldfield E, Chapman D (1972) Dynamics of lipids in membranes - heterogeneity and role of
cholesterol. FEBS Lett 23:285-297
15. Ohvo-Rekila H, Ramstedt B, Leppimaki P, Slotte JP (2002) Cholesterol interactions with
phospholipids in membranes. Prog Lipid Res 41:66-97
16. Martin R, Yeagle P (1978) Models for lipid organization in cholesterol-phospholipid bilayers
including cholesterol dimer formation. Lipids 13:594-597
17. Szoka F, Papahadjopoulos D (1980) Comparative properties and methods of preparation of
lipid vesicles (liposomes). Annu Rev Biophys Bioeng 9:467-508
18. Veatch SL, Keller SL (2003) Separation of liquid phases in giant vesicles of ternary mixtures
of phospholipids and cholesterol. Biophys J 85:3074-3083
19. Hope MJ, Bally MB, Mayer LD, Janoff AS, Cullis PR (1986) Generation of multilamellar and
unilamellar phospholipid-vesicles. Chem Phys Lipids 40:89-107
20. Huang CH (1969) Studies on phosphatidylcholine vesicles. Formation and physical character-
istics. Biochemistry 8:344-352
21. Szoka F, Papahadjopoulos D (1978) Procedure for preparation of liposomes with large internal
aqueous space and high capture by reverse-phase evaporation. Proc Natl Acad Sci USA
75:4194-4198
22. Angelova MI, Soleau S, Meleard P, Faucon JF, Bothorel P (1992) Preparation of giant vesicles
by external ac electric-fields - kinetics and applications. Prog Colloid Polym Sci 89:127-131
23. Morales-Penningston NF, Wu J, Farkas ER, Goh SL, Konyakhina TM, Zheng JY, Webb WW,
Feigenson GW (2010) Guv preparation and imaging: minimizing artifacts. Biochim Biophys
Acta-Biomembr 1798:1324-1332
24. Svedhem S, Pfeiffer I, Larsson C, Wingren C, Borrebaeck C, Hook F (2003) Patterns of DNA-
labeled and scfv-antibody-carrying lipid vesicles directed by material-specific immobilization
of DNA and supported lipid bilayer formation on an Au/SiO
2
template. Chembiochem
4:339-343
25. Kessel A, Ben-Tal N, May S (2001) Interactions of cholesterol with lipid bilayers: the preferred
configuration and fluctuations. Biophys J 81:643-658
26. Beales PA, Vanderlick TK (2007) Specific binding of different vesicle populations by the
hybridization of membrane-anchored DNA. J Phys Chem A 111:12372-12380
27. Pfeiffer I, Hook F (2004) Bivalent cholesterol-based coupling of oligonucleotides to lipid
membrane assemblies. J Am Chem Soc 126:10224-10225
28. Mammen M, Choi SK, Whitesides GM (1998) Polyvalent interactions in biological systems:
implications for design and use of multivalent ligands and inhibitors. Angew Chem Int Ed
37:2755-2794
Search WWH ::
Custom Search