1. Interaction of cationic bilayer fragments with a model oligonucleotide
- Author
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Tiago R. Oliveira, Ana Maria Carmona-Ribeiro, Julio H.K. Rozenfeld, and M. Teresa Lamy
- Subjects
OLIGONUCLEOTÍDEOS ,2′-deoxyadenosine-5′-monophosphate ,Stereochemistry ,Lipid Bilayers ,Biophysics ,Biochemistry ,chemistry.chemical_compound ,Colloid ,Dynamic light scattering ,3′-AAA AAA AAA A-5′ oligonucleotide ,Bromide ,Nephelometry and Turbidimetry ,Differential scanning calorimetry ,Cations ,Calorimetry, Differential Scanning ,Oligonucleotide ,Bilayer ,Cationic polymerization ,Cell Biology ,Lipids ,Quaternary Ammonium Compounds ,Crystallography ,Monomer ,chemistry ,Fusion of bilayer fragments ,Turbidimetry ,Dioctadecyldimethylammonium bromide - Abstract
The interaction between cationic bilayer fragments and a model oligonucleotide was investigated by differential scanning calorimetry, turbidimetry, determination of excimer to monomer ratio of 2-(10-(1-pyrene)-decanoyl)-phosphatidyl-choline in bilayer fragment dispersions and dynamic light scattering for sizing and zeta-potential analysis. Salt (Na2HPO4), mononucleotide (2′-deoxyadenosine-5′-monophosphate) or poly (dA) oligonucleotide (3′-AAA AAA AAA A-5′) affected structure and stability of dioctadecyldimethylammonium bromide bilayer fragments. Oligonucleotide and salt increased bilayer packing due to bilayer fragment fusion. Mononucleotide did not reduce colloid stability or did not cause bilayer fragment fusion. Charge neutralization of bilayer fragments by poly (dA) at 1:10 poly (dA):dioctadecyldimethylammonium bromide molar ratio caused extensive aggregation, maximal size and zero of zeta-potential for the assemblies. Above charge neutralization, assemblies recovered colloid stability due to charge overcompensation. For bilayer fragments/poly (dA), the nonmonotonic behavior of colloid stability as a function of poly (dA) concentration was unique for the oligonucleotide and was not observed for Na2HPO4 or 2′-deoxyadenosine-5′-monophosphate. For the first time, such interactions between cationic bilayer fragments and mono- or oligonucleotide were described in the literature. Bilayer fragments/oligonucleotide assemblies may find interesting applications in drug delivery.
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