Modified oligonucleotides for triple helix studies and for the obtention of structures with biomedical and technological interest

Alvira Torre, Margarita

25 October 2010

Oligonucleotides are short fragments of DNA (10-100nt) which are of great interest because their applications in molecular biology, biomedicine and nanotechnology. As a result of their ability to base pairing, oligonucleotides can be used as primers, hybridization probes in biosensors, agents for controlling gene expression, structural material in nanotechnology or as substrates for a variety of biochemical and biophysical studies. Chemical modification of oligonucleotides as well as conjugation to different functional molecules allows for modulation of both therapeutical and biotechnological properties. This thesis is focused in the nucleic acid chemistry field and the main objective is the synthesis of modified oligonucleotides for obtaining structures with therapeutical and/or biotechnological interest. Oligonucleotides capable to form structures other than the canonical DNA double helix have received considerable attention in the last years. The ability of triplex forming oligonucleotides (TFOs) to bind specifically to certain duplex DNA regions provides a strategy for site-directed modification of genomic DNA. Besides, G-quadruplexes are four-stranded DNA structures stabilized by stacking of guanine tetrads which have been found in telomeres and some promoters and play a role in regulation of transcription and translation. In addition, they are also interesting for nanotechnological devices. In this context, the first part of the research work was addressed to synthesize parallel stranded oligonucleotide clamps carrying LNA (locked nucleic acid) residues and study the stability of the triplex formed with DNA and RNA target sequences. Secondly, a novel strategy to obtain parallel clamps using the non-templated chemical ligation of two oligonucleotides by 5’-5’ linkages was developed. For this purpose, several protocols for introduce azido and alkyne moieties in the 5’-end of different sequences were developed so that the modified DNA strands could form a parallel hairpin after their chemical ligation by click chemistry. Thirdly, a system composed of four DNA strands whose 5’ ends are covalently attached was designed to form a monomolecular parallel G-quadruplex, which was used to study the effects of some nucleobase modifications in quadruplex structure. Finally, oligonucleotide conjugates carrying Cu(II) complexes were synthesized to construct arrays of electrochemical oscillators for nanotechnology applications.

DNA chemistry

Oligonucleotides

Triplex and Quadruplex Structures

Click Chemistry Reactions

Ciències Experimentals i Matemàtiques

547

Theoretical Studies Of II-Facial Selectivity In Sterically Unbiased Systems

Kalyanaraman, P

09 1900

No description available.

Nucleophilic Additions

Electrophilic Additions

n-face Selectivity

Facial Selectivity

Theoretical Chemistry

Formação e reatividade de íons negativos solvatados em fase gasosa por espectroscopia de ressonancia ciclotrônica de íons / Formation and reactivity of solvated negative ions in gas phase byion cyclotron resonance spectroscopy

Paulo Celso Isolani

17 September 1974

A espectroscopia de ressonância ciclotrônica de íons foi usada para estudar reações de íons alcóxido, hidróxido, fluoreto, íon-radical óxido, acetileto e amideto com formiatos de alquila; o último íon reage também com N,N-dimetilformamida. Em todos os casos ocorre uma reação de descarbonilação, dando origem a um íon solvatado, que as evidências experimentais indicam ser unido por ponte de hidrogênio. Deslocamentos nucleófilos de grupos ligados ao esqueleto formílico podem ocorrer em casos adequados e em casos especiais ocorre ainda a formação de íons formiato. Os íons solvatados formados a partir de íons fluoreto e alcóxido com formiatos de alquila reagem com álcoois, podendo-se desta meneira estabelecer uma ordem de capacidade de solvatação para os álcoois alifáticos simples. A ordem estabelecida foi: CH3OH < C2H5OH < iso-C3H7OH < tert-C4H9OH. Foram determinadas constantes relativas de velocidade para as reações de vários íons negativos com formiatos de alquila, em sistemas onde se forma mais de um produto. Nos casos mais favoráveis (reações de íons fluoreto) foram calculadas constantes de velocidade absolutas para os vários canais de reação. / Ion-cyclotron resonance spectroscopy has been used to study the reactions between alkoxide, hydroxide, fluoride, O-, acetylide and amide ions with alkyl formates; the last ion reacts also with N,N-dimethylformamide. In all systems a decarbonylation occurs, giving rise to a solvated product ion, held by a hydrogen bond, as evidenced experimentally. Nucleophilic displacement of the formyl group substituents may occur in favorable cases and in a few particular systems the formation of formate ion is observed. The solvated ions formed through the reaction of fluoride or alkoxide ions with alkyl formates can react further with alcohols to establish the intrinsic clustering ability of simple aliphatic alcohols. The order of solvating ability is shown to follow the order CH3OH < C2H5OH < iso-C3H7OH < tert-C4H9OH. In systems where parallel reactions occur, relative rate constants were determined; in the most favorable cases (reactions of fluoride ions), absolute rate constants for the various reaction channels were calculated.

Íons negativos

Íons solvatados

Reações íon-molécula

Reações químicas

Ressonância ciclotrônica de íons

Chemistry reactions

Ion cyclotron resonance

Ion-molecule reactions

Negative ions

Solvated ions

Formação e reatividade de íons negativos solvatados em fase gasosa por espectroscopia de ressonancia ciclotrônica de íons / Formation and reactivity of solvated negative ions in gas phase byion cyclotron resonance spectroscopy

Isolani, Paulo Celso

17 September 1974

A espectroscopia de ressonância ciclotrônica de íons foi usada para estudar reações de íons alcóxido, hidróxido, fluoreto, íon-radical óxido, acetileto e amideto com formiatos de alquila; o último íon reage também com N,N-dimetilformamida. Em todos os casos ocorre uma reação de descarbonilação, dando origem a um íon solvatado, que as evidências experimentais indicam ser unido por ponte de hidrogênio. Deslocamentos nucleófilos de grupos ligados ao esqueleto formílico podem ocorrer em casos adequados e em casos especiais ocorre ainda a formação de íons formiato. Os íons solvatados formados a partir de íons fluoreto e alcóxido com formiatos de alquila reagem com álcoois, podendo-se desta meneira estabelecer uma ordem de capacidade de solvatação para os álcoois alifáticos simples. A ordem estabelecida foi: CH3OH < C2H5OH < iso-C3H7OH < tert-C4H9OH. Foram determinadas constantes relativas de velocidade para as reações de vários íons negativos com formiatos de alquila, em sistemas onde se forma mais de um produto. Nos casos mais favoráveis (reações de íons fluoreto) foram calculadas constantes de velocidade absolutas para os vários canais de reação. / Ion-cyclotron resonance spectroscopy has been used to study the reactions between alkoxide, hydroxide, fluoride, O-, acetylide and amide ions with alkyl formates; the last ion reacts also with N,N-dimethylformamide. In all systems a decarbonylation occurs, giving rise to a solvated product ion, held by a hydrogen bond, as evidenced experimentally. Nucleophilic displacement of the formyl group substituents may occur in favorable cases and in a few particular systems the formation of formate ion is observed. The solvated ions formed through the reaction of fluoride or alkoxide ions with alkyl formates can react further with alcohols to establish the intrinsic clustering ability of simple aliphatic alcohols. The order of solvating ability is shown to follow the order CH3OH < C2H5OH < iso-C3H7OH < tert-C4H9OH. In systems where parallel reactions occur, relative rate constants were determined; in the most favorable cases (reactions of fluoride ions), absolute rate constants for the various reaction channels were calculated.

Chemistry reactions

Ion cyclotron resonance

Ion-molecule reactions

Íons negativos

Íons solvatados

Negative ions

Reações íon-molécula

Reações químicas

Ressonância ciclotrônica de íons

Solvated ions