Диссертация (Дилатационная поверхностная реология растворов смеси полиэлектролитов и ПАВ), страница 22
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Vol. 354, № 3–4. P. 354–359.95.Yoshikawa K., Takahashi M., Vasilevskaya V. V., Khokhlov A.R. Large DiscreteTransition in a Single DNA Molecule Appears Continuous in the Ensemble // Phys. Rev.123Lett. 1996. Vol. 76, № 16. P. 3029–3031.96.Mel’nikov S.M., Khan M.O., Lindman B., Jönsson B. Phase Behavior of Single DNA inMixed Solvents // J.
Am. Chem. Soc. 1999. Vol. 121, № 6. P. 1130–1136.97.Dias R.S., Pais A.A.C.C., Miguel M.G., Lindman B. Modeling of DNA compaction bypolycations // J. Chem. Phys. 2003. Vol. 119, № 15. P. 8150–8157.98.Zinchenko A.A., Yoshikawa K., Baigl D. Compaction of Single-Chain DNA by HistoneInspired Nanoparticles // Phys. Rev. Lett. 2005. Vol. 95, № 22. P.
228101.99.Nandy B., Maiti P.K. DNA Compaction by a Dendrimer // J. Phys. Chem. B. 2011. Vol.115, № 2. P. 217–230.100. Sollogoub M., Guieu S., Geoffroy M., Yamada A., Estévez-Torres A., Yoshikawa K.,Baigl D. Photocontrol of Single-Chain DNA Conformation in Cell-MimickingMicrocompartments // ChemBioChem. 2008. Vol. 9, № 8. P. 1201–1206.101. Hayakawa K., Santerre J.P., Kwak J.C.T.
The binding of cationic surfactants by DNA //Biophys. Chem. 1983. Vol. 17, № 3. P. 175–181.102. Dias R., Mel’nikov S., Lindman B., Miguel M.G. DNA phase behavior in the presence ofoppositely charged surfactants // Langmuir. 2000. Vol. 16, № 24. P. 9577–9583.103. Dias R.S., Innerlohinger J., Glatter O., Miguel M.G., Lindman B. Coil-globule transitionof DNA molecules induced by cationic surfactants: A dynamic light scattering study // J.Phys. Chem. B.
2005. Vol. 109, № 20. P. 10458–10463.104. Dasgupta A., Das P.K., Dias R.S., Miguel M.G., Lindman B. Effect of headgroup on DNA- Cationic surfactant interactions // J. Phys. Chem. B. 2007. Vol. 111, № 29. P. 8502–8508.105. Nakanishi H., Tsuchiya K., Okubo T., Sakai H., Abe M. Cationic surfactant changes themorphology of DNA molecules. // Langmuir. 2007. Vol. 23, № 2. P. 345–347.106.
Grueso E., Cerrillos C., Hidalgo J., Lopez-Cornejo P. Compaction and decompaction ofDNA induced by the cationic surfactant CTAB // Langmuir. 2012. Vol. 28, № 30. P.10968–10979.107. Rohland N., Hofreiter M. Comparison and optimization of ancient DNA extraction //Biotechniques. 2007. Vol. 42, № 3. P. 343–352.108. Khomutov G.B. Interfacially formed organized planar inorganic, polymeric andcomposite nanostructures // Adv. Colloid Interface Sci.
2004. Vol. 111, № 1–2. P. 79–116.124109. Csáki A., Maubach G., Born D., Reichert J., Fritzsche W. DNA-based molecularnanotechnology // Single Mol. 2002. Vol. 3, № 5–6. P. 275–280.110. Mel’nikov S.M., Sergeyev V.G., Yoshikawa K. Transition of Double-Stranded DNAChains between Random Coil and Compact Globule States Induced by CooperativeBinding of Cationic Surfactant // J.
Am. Chem. Soc. 1995. Vol. 117, № 40. P. 9951–9956.111. Dias R.S., Magno L.M., Valente A.J.M., Das D., Das P.K., Maiti S., Miguel M.G.,Lindman B. Interaction between DNA and Cationic Surfactants: Effect of DNAConformation and Surfactant Headgroup // J. Phys. Chem. B. 2008. Vol. 112, № 46. P.14446–14452.112. Leal C., Wadsö L., Olofsson G., Miguel M., Wennerström H. The Hydration of aDNA−Amphiphile Complex // J. Phys. Chem. B.
2004. Vol. 108, № 9. P. 3044–3050.113. Ghirlando R., Wachtel E.J., Arad T., Minsky A. DNA packaging induced by micellaraggregates: a novel in vitro DNA condensation system // Biochemistry. 1992. Vol. 31, №31. P. 7110–7119.114. McLoughlin D., Impéror-Clerc M., Langevin D. A New Cubic Phase Containing DNAand a Surfactant // ChemPhysChem. 2004. Vol. 5, № 10. P. 1619–1623.115. Dias R.S., Lindman B., Miguel M.G. DNA Interaction with Catanionic Vesicles // J. Phys.Chem. B. 2002.
Vol. 106, № 48. P. 12600–12607.116. Rosa M., del Carmen Morán M., da Graça Miguel M., Lindman B. The association ofDNA and stable catanionic amino acid-based vesicles // Colloids Surfaces APhysicochem. Eng. Asp. 2007. Vol. 301, № 1–3. P. 361–375.117. Mintzer M.A., Simanek E.E. Nonviral Vectors for Gene Delivery // Chem. Rev.
2009.Vol. 109, № 2. P. 259–302.118. Ahmad A., Evans H.M., Ewert K., George C.X., Samuel C.E., Safinya C.R. Newmultivalent cationic lipids reveal bell curve for transfection efficiency versus membranecharge density: lipid-DNA complexes for gene delivery // J. Gene Med. 2005. Vol. 7, №6. P. 739–748.119. Dias R.S., Svingen R., Gustavsson B., Lindman B., Miguel M.G., Åkerman B.Electrophoretic properties of complexes between DNA and the cationic surfactantcetyltrimethylammonium bromide // Electrophoresis. 2005.
Vol. 26, № 15. P. 2908–2917.120. Dias R.S., Lindman B., Miguel M.G. Compaction and Decompaction of DNA in thePresence of Catanionic Amphiphile Mixtures // J. Phys. Chem. B. 2002. Vol. 106, № 48.125P. 12608–12612.121. González-Pérez A., Carlstedt J., Dias R.S., Lindman B. Cyclodextrins in DNAdecompaction // Colloids Surfaces B Biointerfaces. 2010.
Vol. 76, № 1. P. 20–27.122. Mel’nikova Y.S., Lindman B. pH-Controlled DNA Condensation in the Presence ofDodecyldimethylamine Oxide // Langmuir. 2000. Vol. 16, № 14. P. 5871–5878.123. Le Ny A.-L.M., Lee C.T. Photoreversible DNA Condensation Using Light-ResponsiveSurfactants // J. Am. Chem. Soc. 2006. Vol. 128, № 19. P. 6400–6408.124. Goddard E.D., Hannan R.B. Polymer/surfactant interactions // J. Am. Oil Chem. Soc.1977. Vol. 54, № 12. P. 561–566.125. Motschmann H., Teppner R.
Ellipsometry in Interface Science // Studies in InterfaceScience. 1st ed. / ed. Miller R., Mobius D. 2001. Vol. 11, № C. P. 1–42.126. Stubenrauch C., Albouy P.A., Klitzing R. V., Langevin D. Polymer/surfactant complexesat the water/air interface: A surface tension and X-ray reflectivity study // Langmuir.
2000.Vol. 16, № 7. P. 3206–3213.127. Caseli L., Nobre T.M., Ramos A.P., Monteiro D.S., Zaniquelli M.E.D. The Role ofLangmuir Monolayers To Understand Biological Events // In Recent Progress in Colloidand Surface Chemistry with Biological Applications. ACS Sympos. Washington, DC:American Chemical Society, 2015. Vol. 1215. P. 65–88.128. Sorrenti A., Illa O., Ortuño R.M. Amphiphiles in aqueous solution: well beyond a soapbubble // Chem. Soc. Rev. 2013.
Vol. 42, № 21. P. 8200–8219.129. Ricci E., Sangiorgi R., Passerone A. On the measurement of the surface tension of DNAsolutions // J. Colloid Interface Sci. 1984. Vol. 102, № 1. P. 295–297.130. Okubo T., Kobayashi K. Surface Tension of Biological Polyelectrolyte Solutions. // J.Colloid Interface Sci. 1998. Vol. 205, № 2. P. 433–442.131. Kundu S., Langevin D., Lee L.T. Neutron reflectivity study of the complexation of DNAwith lipids and surfactants at the surface of water // Langmuir.
2008. Vol. 24, № 21. P.12347–12353.132. Vongsetskul T., Taylor D.J.F., Zhang J., Li P.X., Thomas R.K., Penfold J. Interaction ofa Cationic Gemini Surfactant with DNA and with Sodium Poly(styrene sulphonate) at theAir/Water Interface: A Neutron Reflectometry Study // Langmuir. 2009. Vol. 25, № 7. P.4027–4035.133. Di Profio P., Germani R., Goracci L., Grilli R., Savelli G., Tiecco M. Interaction between126DNA and cationic amphiphiles: A multi-technique study // Langmuir. 2010.
Vol. 26, №11. P. 7885–7892.134. Moradi N., Zakrevskyy Y., Javadi A., Aksenenko E.V., Fainerman V.B., Lomadze N.,Santer S., Miller R. Surface tension and dilation rheology of DNA solutions in mixtureswith azobenzene-containing cationic surfactant // Colloids Surfaces A Physicochem. Eng.Asp. 2016.
Vol. 505. P. 186–192.135. Langevin D. Complexation of oppositely charged polyelectrolytes and surfactants inaqueous solutions. A review // Adv. Colloid Interface Sci. 2009. Vol. 147–148. P. 170–177.136. Dias R., Lindman B. DNA Interactions with Polymers and Surfactants. New Jersey: JohnWiley & Sons, Inc., 2008.137. Bain C.D., Claesson P.M., Langevin D., Meszaros R., Nylander T., Stubenrauch C.,Titmuss S., von Klitzing R. Complexes of surfactants with oppositely charged polymersat surfaces and in bulk // Adv. Colloid Interface Sci. 2010. Vol.
155, № 1–2. P. 32–49.138. Angus-Smyth A., Bain C.D., Varga I., Campbell R. Effects of bulk aggregation on PEI–SDS monolayers at the dynamic air–liquid interface: depletion due to precipitation versusenrichment by a convection/spreading mechanism // Soft Matter. 2013. Vol. 9, № 26. P.6103.139. Cardenas M., Campos-Teran J., Nylander T., Lindman B. DNA and cationic surfactantcomplexes at hydrophilic surfaces. An ellipsometry and surface force study // Langmuir.2004. Vol.
20. P. 8597–8603.140. Eskilsson K., Leal C., Lindman B., Miguel M., Nylander T. DNA-surfactant complexesat solid surfaces // Langmuir. 2001. Vol. 17, № 5. P. 1666–1669.141. Chen Q., Kang X., Li R., Du X., Shang Y., Liu H., Hu Y. Structure of the ComplexMonolayer of Gemini Surfactant and DNA at the Air/Water Interface // Langmuir. 2012.Vol. 28, № 7. P. 3429–3438.142. Sun L., Xu M., Hou X., Wu L.
In-situ observation of the aggregated morphology andinteraction of dialkyldimethylammonium bromide with DNA at air/water interface byBrewster angle microscopy // Mater. Lett. 2004. Vol. 58, № 9. P. 1466–1470.143. Pal A., Mishra B.K., Panigrahi S., Nath R.K., Deb S. Formation of Complex Langmuirand Langmuir-Blodgett Films of DNA with a Dichain Cationic Surfactant // J. Macromol.Sci. Part A. 2012. Vol. 49, № 2. P. 160–163.127144. Lopes-Costa T., Gamez F., Lago S., Pedrosa J.M. Adsorption of DNA to octadecylaminemonolayers at the air-water interface // J.
Colloid Interface Sci. 2011. Vol. 354, № 2. P.733–738.145. Ramakrishnan V., D’costa M., Ganesh K.N., Sastry M. PNA-DNA hybridization at theair-water interface in the presence of octadecylamine Langmuir monolayers // Langmuir.2002. Vol. 18, № 16. P. 6307–6311.146. Symietz C., Schneider M., Brezesinski G., Mohwald H. DNA alignment at cationic lipidmonolayers at the air/water interface // Macromolecules. 2004.
Vol. 37, № 10. P. 3865–3873.147. Erokhina S., Berzina T., Cristofolini L., Konovalov O., Erokhin V., Fontana M.P.Interaction of DNA oligomers with cationic lipidic monolayers: Complexation andsplitting // Langmuir. 2007. Vol. 23, № 8. P.