Abstract EN:

Fluorescence sensing found broad application in nucleic acids structure, dynamic and protein interaction investigations. For this reason, numerous natural and synthetic fluorescent nucleoside analogs are applied for these studies ; nevertheless, the disadvantages inherited by the vast majority of them stimulate the research of new probes with optimized photophysical properties. 3-hydroxychromones (3HCs) are environment-sensitive fluorophores possessing remarkable photophysical properties. 3 HCs were sufficiently applied to study proteins and lipid membranes. However, no examples have been reported in the literature of 3HCs applied to nucleic acid labelling and sensing. In this context, in collaboration with the team of Pr. Y. Mély (Strasbourg University), the objectives of the thesis were the following : (i) the synthesis of the fluorescent nucleoside analogs containing 2-aryl-3HC structural moiety ; (ii) the incorporation of the fluorescent nucleosides in ODNs ; (iii) the study of biophysical and photophysical properties of 3HC-labeld oligonucleotides. During this research, different synthetic approaches were developed to access two kinds of fluorescent nucleosides : (i) nucleoside analogs with the nucleobase replaced by the 3HC moiety ; (ii) nucleobase analog with the natural base connected to the 3HC residue. By selecting an appropriate protecting group to mask the OH of 3HC, the fluorescent nucleoside of the first type was efficiently incorporated into ODNs. The photophysical properties of the 3HC incorporated into ODNs were investigated in single- and double—stranded forms, in different surrounding base context, and in the presence of the nucleic acid binding viral protein NCp7. The main information drawn from experimental results are the following : (i) the 3HC-contining nucleoside possesses the properties of a ratiometric fluorescent probe both in single- and double-stranded DNA ; (ii) the 3HC moiety possesses properties of an universal base, i. E. It does not perturb the structure of nuclei acid and can substitute any natural base or a base pair in DNA duplexes ; (iii) the improved photostability and high sensitivity of the dye to environmental changes in terms of normal (N*) and tautomer (T*) emission maxima and intensity ratio (N* / T*) changes allow to distinguish the free probe, single and double-stranded labelled DNA forms (iv) finally, promising results were obtained for 3HC mediated nucleic acid – protein interaction sensing in the experiments with the HIC-1 nucleocapsid protein NCp7 ; it makes the developed and new 3HC nucleoside fluorescent probe a prospective candidate for practical applications.