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dc.contributor.authorPillai, C K S-
dc.contributor.authorNeethu Sundaresan-
dc.contributor.authorRadhakrishnan Pillai, M-
dc.contributor.authorThomas, T-
dc.contributor.authorThomas, T J-
dc.date.accessioned2014-05-13T09:56:39Z-
dc.date.available2014-05-13T09:56:39Z-
dc.date.issued2005-
dc.identifier.citationPramana-Journal of Physics 65(4):723-729;Oct 2005en_US
dc.identifier.issn0304-4289-
dc.identifier.urihttp://ir.niist.res.in:8080/jspui/handle/123456789/1411-
dc.description.abstractViral and nonviral condensing agents are used in gene therapy to compact oligonucleotides and plasmid DNA into nanostructures for their efficient transport through the cell membranes. Whereas viral vectors are best by the toxic effects on the immune system, most of the nonviral delivery vehicles are not effective for use in clinical system. Recent investigations indicate that the supramolecular organization of DNA in the condensed state is liquid crystalline. The present level of understanding of the liquid crystalline phase of DNA is inadequate and a thorough investigation is required to understand the nature, stability, texture and the influence of various environmental conditions on the structure of the phase. The present study is mainly concerned with the physicochemical investigations on the liquid crystalline transitions during compaction of DNA by cationic species such as polyamines and metallic cations. As a preliminaxy to the above investigation, studies were conducted on the evolution of mesophase transitions of DNA with various cationic counterion species using polarized light microscopy. These studies indicated significant variations in the phase behaviour of DNA in the presence of Li and other ions. Apart from the neutralization of the charges on the DNA molecule, these ions are found to influence selectively the hydration sphere of DNA that in turn influences the induction and stabilization of the LC phases. The higher stability observed with the liquid crystalline phases of Li-DNA system could be useful in the production of nanostructured DNA. In the case of the polyamine, a structural specificity effect depending on the nature, charge and structure of the polyamine used has been found to be favoured in the crystallization of DNA.en_US
dc.language.isoenen_US
dc.publisherIndian Academy of Sciencesen_US
dc.subjectLiquid crystalline DNAen_US
dc.subjectAlkali metal ionsen_US
dc.subjectDNA condensationen_US
dc.subjectNanostructured DNAen_US
dc.titleInvestigations on the liquid crystalline phases of cation-induced condensed DNAen_US
dc.typeArticleen_US
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