Диссертация (Дилатационная поверхностная реология растворов смеси полиэлектролитов и ПАВ), страница 21
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2011. Vol. 168, № 1–2. P. 179–197.42.McLoughlin D.M., O’Brien J., McManus J.J., Gorelov A. V., Dawson K.A. A simple andeffectiveseparationandpurificationprocedureforDNAfragmentsusingDodecyltrimethylammonium bromide // Bioseparation. 2001. Vol. 9, № 5. P. 307–313.43.Morán M.C., Alonso T., Lima F.S., Vinardell M.P., Miguel M.G., Lindman B. Counterion effect on surfactant–DNA gel particles as controlled DNA delivery systems // SoftMatter.
2012. Vol. 8, № 11. P. 3200–3211.11944.Zuidam N.J., Barenholz Y. Electrostatic and structural properties of complexes involvingplasmid DNA and cationic lipids commonly used for gene delivery // Biochim. Biophys.Acta - Biomembr. 1998. Vol. 1368, № 1. P. 115–128.45.Carlstedt J., Lundberg D., Dias R.S., Lindman B. Condensation and decondensation ofDNA by cationic surfactant, spermine, or cationic surfactant-cyclodextrin mixtures:Macroscopic phase behavior, aggregate properties, and dissolution mechanisms //Langmuir.
2012. Vol. 28, № 21. P. 7976–7989.46.Costa D., Briscoe W.H., Queiroz J. Polyethylenimine coated plasmid DNA–surfactantcomplexes as potential gene delivery systems // Colloids Surfaces B Biointerfaces. 2015.Vol. 133. P. 156–163.47.McLoughlin D., Langevin D. Surface complexation of DNA with a cationic surfactant //Colloids Surfaces A Physicochem. Eng. Asp.
2004. Vol. 250, № 1–3. P. 79–87.48.Ábraham Á., Campbell R.A., Varga I. New Method to Predict the Surface Tension ofComplex Synthetic and Biological Polyelectrolyte/Surfactant Mixtures // Langmuir. 2013.Vol. 29, № 37. P. 11554–11559.49.Elliot W.H., Elliot D.C. Biochemistry and Molecular Biology. 4th ed. Oxford UniversityPress, 2009. 586 p.50.Dahm R. Discovering DNA: Friedrich Miescher and the early years of nucleic acidresearch // Hum. Genet. 2008. Vol. 122, № 6.
P. 565–581.51.Avery O.T., MacLeod C.M., McCarty M. Studies on the chemical nature of the substanceinducing transformation of pneumococcal types // J. Exp. Med. 1944. Vol. 79, № 6. P.137–158.52.Franklin R.E., Gosling R.G. Evidence for 2-chain helix in crystalline structure of sodiumdeoxyribonucleate // Nature. 1953. Vol. 172, № 4369. P. 156–157.53.Franklin R.E., Gosling R.G. Molecular Configuration in Sodium Thymonucleate //Nature. 1953.
Vol. 171, № 4356. P. 740–741.54.Watson J.D., Crick F.H.C. Molecular structure of nucleic acids // Nature. 1953. Vol. 171,№ 4356. P. 737–738.55.Wirth T., Parker N., Ylä-Herttuala S. History of gene therapy // Gene. 2013. Vol. 525, №2. P. 162–169.56.Chargaff E., Lipshitz R., Green C., Hodes M.E. Of the desoxyribonucleic salmon sperm// J. Biol. Chem. 1951. Vol. 192. P. 223–230.12057.Mandelkern M., Elias J.G., Eden D., Crothers D.M.
The dimensions of DNA in solution// J. Mol. Biol. 1981. Vol. 152, № 1. P. 153–161.58.Wing R., Drew H., Takano T., Broka C., Tanaka S., Itakura K., Dickerson R.E. Crystalstructure analysis of a complete turn of B-DNA // Nature. 1980. Vol. 287, № 5784. P.755–758.59.Lederberg J. Cell genetics and hereditary symbiosis. // Physiol.
Rev. 1952. Vol. 32, № 4.P. 403–430.60.Lederberg J. Plasmid (1952–1997) // Plasmid. 1998. Vol. 39, № 1. P. 1–9.61.Goddard E.D., Ananthapadmanabhan K.P. Interactions of Surfactants with Polymers andProteins. Boca Raton, FL: CRC Press, 1992. 448 p.62.Kronberg B., Holmberg K., Lindman B. Surface Chemistry of Surfactants and Polymers.Chichester, UK: John Wiley & Sons, Ltd, 2014. 496 p.63.Goddard E.D. Polymer—surfactant interaction Part I. uncharged water-soluble polymersand charged surfactants // Colloids and Surfaces. 1986. Vol. 19, № 2–3.
P. 255–300.64.Jones M.N. The interaction of sodium dodecyl sulfate with polyethylene oxide // J. ColloidInterface Sci. 1967. Vol. 23, № 1. P. 36–42.65.Staples E., Tucker I., Penfold J., Warren N., Thomas R.K. Organization ofPolymer−SurfactantMixturesattheAir−WaterInterface:Poly(dimethyldiallylammonium chloride), Sodium Dodecyl Sulfate, and HexaethyleneGlycol Monododecyl Ether // Langmuir. 2002. Vol. 18, № 13.
P. 5139–5146.66.Penfold J., Tucker I., Thomas R.K., Zhang J. Adsorption of Polyelectrolyte / SurfactantMixtures at the Air - Water Interface : Modified Poly ( ethyleneimine ) and SodiumDodecyl Sulfate // Langmuir. 2005. Vol. 21, № 22. P. 10061–10073.67.Lindman B., Antunes F., Aidarova S., Miguel M., Nylander T. Polyelectrolyte-surfactantassociation—from fundamentals to applications // Colloid J. 2014. Vol. 76, № 5.
P. 585–594.68.Hayakawa K., Santerre J.P., Kwak J.C.T. Study of surfactant-polyelectrolyte interactions.Binding of dodecyl- and tetradecyltrimethylammonium bromide by some carboxylicpolyelectrolytes // Macromolecules. 1983. Vol. 16, № 10. P. 1642–1645.69.Ibraheem D., Elaissari A., Fessi H.
Gene therapy and DNA delivery systems // Int. J.Pharm. 2014. Vol. 459, № 1–2. P. 70–83.70.Wartell R.M., Benight A.S. Thermal denaturation of DNA molecules: A comparison of121theory with experiment // Phys. Rep. 1985. Vol. 126, № 2. P. 67–107.71.Marmur J., Doty P. Thermal renaturation of deoxyribonucleic acids // J. Mol. Biol. 1961.Vol.
3, № 5. P. 585–594.72.Schildkraut C., Lifson S. Dependence of the melting temperature of DNA on saltconcentration // Biopolymers. 1965. Vol. 3, № 2. P. 195–208.73.Marmur J., Doty P. Heterogeneity in Deoxyribonucleic Acids: I. Dependence onComposition of the Configurational Stability of Deoxyribonucleic Acids // Nature. 1959.Vol. 183, № 4673.
P. 1427–1429.74.Marmur J., Doty P. Determination of the base composition of deoxyribonucleic acid fromits thermal denaturation temperature // J. Mol. Biol. 1962. Vol. 5, № 1. P. 109–118.75.Privalov P.L., Ptitsyn O.B., Birshtein T.M. Determination of stability of the DNA doublehelix in an aqueous medium // Biopolymers. 1969.
Vol. 8, № 5. P. 559–571.76.Korolev N.I., Vlasov A.P., Kuznetsov I.A. Thermal denaturation of Na- and Li-DNA insalt-free solutions // Biopolymers. 1994. Vol. 34, № 9. P. 1275–1290.77.Murphy M.C., Rasnik I., Cheng W., Lohman T.M., Ha T. Probing Single-Stranded DNAConformational Flexibility Using Fluorescence Spectroscopy // Biophys. J. 2004.
Vol. 86,№ 4. P. 2530–2537.78.Tinland B., Pluen A., Sturm J., Weill G. Persistence Length of Single-Stranded DNA //Macromolecules. 1997. Vol. 30, № 19. P. 5763–5765.79.Rosa M., Dias R., Miguel M. da G., Lindman B. DNA−Cationic Surfactant InteractionsAre Different for Double- and Single-Stranded DNA // Biomacromolecules. 2005. Vol. 6,№ 4.
P. 2164–2171.80.Gromelski S., Brezesinski G. DNA condensation and interaction with zwitterionicphospholipids mediated by divalent cations // Langmuir. 2006. Vol. 22, № 14. P. 6293–6301.81.Khan M.O., Mel’nikov S.M., Jönsson B. Anomalous salt effects on DNA conformation:Experiment and theory // Macromolecules. 1999. Vol. 32, № 26. P. 8836–8840.82.Estévez-Torres A., Baigl D. DNA compaction: fundamentals and applications // SoftMatter. 2011. Vol. 7, № 15. P. 6746.83.Zakrevskyy Y., Kopyshev A., Lomadze N., Morozova E., Lysyakova L., Kasyanenko N.,Santer S.
DNA compaction by azobenzene-containing surfactant // Phys. Rev. E. 2011.Vol. 84, № 2. P. 1–9.12284.Mel’nikov S.M., Sergeyev V.G., Yoshikawa K. Discrete Coil-Globule Transition of LargeDNA Induced by Cationic Surfactant // J. Am. Chem. Soc. 1995. Vol. 117, № 9. P. 2401–2408.85.Muñoz-Úbeda M., Misra S.K., Barrán-Berdón A.L., Aicart-Ramos C., Sierra M.B.,Biswas J., Kondaiah P., Junquera E., Bhattacharya S., Aicart E.
Why Is Less CationicLipid Required To Prepare Lipoplexes from Plasmid DNA than Linear DNA in GeneTherapy? // J. Am. Chem. Soc. 2011. Vol. 133, № 45. P. 18014–18017.86.Takahashi M., Yoshikawa K., Vasilevskaya V. V., Khokhlov A.R. Discrete Coil−GlobuleTransition of Single Duplex DNAs Induced by Polyamines // J. Phys. Chem. B. 1997. Vol.101, № 45.
P. 9396–9401.87.Bordelon H., Biris A.S., Sabliov C.M., Todd Monroe W. Characterization of plasmidDNA location within chitosan/PLGA/pDNA nanoparticle complexes designed for genedelivery // J. Nanomater. 2010. Vol. 2011. P. 1–9.88.Fields R.J., Cheng C.J., Quijano E., Weller C., Kristofik N., Duong N., Hoimes C., EganM.E., Saltzman W.M. Surface modified poly(β amino ester)-containing nanoparticles forplasmid DNA delivery // J. Control. Release. 2012.
Vol. 164, № 1. P. 41–48.89.Jadhav V., Maiti S., Dasgupta A., Das P.K., Dias R.S., Miguel M.G., Lindman B. Effectof the head-group geometry of amino acid-based cationic surfactants on interaction withplasmid DNA // Biomacromolecules. 2008. Vol. 9, № 7. P.
1852–1859.90.Zhu D.M., Evans R.K. Molecular mechanism and thermodynamics study of plasmid DNAand cationic surfactants interactions // Langmuir. 2006. Vol. 22, № 8. P. 3735–3743.91.Guo X., Yu F., Ran X., Song X., Ding J., Wang Y. Vesicle formation between singlechained cationic surfactant and plasmid DNA and its application in cell transfection //Colloid Polym. Sci. 2014.
Vol. 292, № 12. P. 3103–3111.92.Ahmed T., Kamel A.O., Wettig S.D. Interactions between DNA and gemini surfactant:impact on gene therapy: part II // Nanomedicine. 2016. Vol. 11, № 4. P. 403–420.93.Ahmed T., Kamel A.O., Wettig S.D. Interactions between DNA and gemini surfactant:impact on gene therapy: part I // Nanomedicine. 2016. Vol. 11, № 3. P. 289–306.94.Yoshikawa K., Yoshikawa Y., Kanbe T. All-or-none folding transition in giantmammalian DNA // Chem. Phys. Lett. 2002.
