Water-soluble carbosilane dendrimers: synthesis biocompatibility and complexation with oligonucleotides; evaluation for medical applications.

Novel amine- or ammonium-terminated carbosilane dendrimers of type nG-[Si{OCH2(C6H3)-3,5-(OCH2CH2NMe2)2}]x, nG-[Si{O(CH2)2N(Me)(CH2)2NMe2}]x and nG-[Si{(CH2)3NH2}]x or nG-[Si{OCH2(C6H3)-3,5-(OCH2CH2NMe3 +I-)2}]x, nG-[Si{O(CH2)2N(Me)(CH2)2NMe3 +I-}]x, and nG-[Si{(CH2)3NH3 +Cl-}]x have been synthesized and characterized up to the third generation by two strategies: 1) alcoholysis of Si--Cl bonds with amino alcohols and subsequent quaternization with MeI, and 2) hydrosilylation of allylamine with Si--H bonds of the dendritic systems and subsequent quaternization with HCl. Quaternized carbosilane dendrimers are soluble in water, although degradation is apparent due to hydrolysis of Si--O bonds. However, dendrimers containing Si--C bonds are water-stable.

Trimethylguanosine nucleoside inhibits cross-linking between Snurportin 1 and m3G-CAPPED U1 snRNA.

Macromolecular nuclear import is an energy-and signal-dependent process. The best characterized type of nuclear import consists of proteins carrying the classical NLS that is mediated by the heterodimeric receptor importin alpha/beta. Spliceosomal snRNPs U1, U2, U4, and U5 nuclear import depend both on the 5' terminal m3G (trimethylguanosine) cap structure of the U snRNA and the Sm core domain.

Efficient sequence-specific purification of Listeria innocua mRNA species by triplex affinity capture with parallel tail-clamps.

Parallel clamps can interact in a sequence-specific manner with homopyrimidine DNA and RNA oligonucleotides to form triplexes. For longer nucleic acids, we have previously demonstrated the inhibitory effect of DNA-target secondary structures on triplex formation. We further designed a modification of these molecules-that is, tail-clamps formed by addition of a tail sequence to the parallel clamp-and proved efficient binding of the molecules with structured single-stranded DNA targets.

First record and establishment of the mosquito Aedes albopictus in Spain.

The invasive mosquito Aedes (Stegomyia) albopictus (Skuse) (Diptera: Culicidae) was detected for the first time in Spain, in Sant Cugat del Vallès, a city in the north-east of the country (41 degrees 28' N, 2 degrees 4' E, altitude 120 m), during August 2004. A male and one larva were collected in the backyard of a house and in a tree hole, respectively. Dense populations of adults and larvae were found in subsequent surveys, confirming the establishment of the species in the area.

Resolution of a structural competition involving dimeric G-quadruplex and its C-rich complementary strand.

The resolution of the dimeric intermolecular G-quadruplex/duplex competition of the telomeric DNA sequence 5'-TAG GGT TAG GGT-3' and of its complementary 5' ACC CTA ACC CTA-3' is reported. To achieve this goal, melting experiments of both sequences and of the mixtures of these sequences were monitored by molecular absorption, molecular fluorescence and circular dichroism spectroscopies. Molecular fluorescence measurements were carried out using molecular beacons technology, in which the 5'-TAG GGT TAG GGT-3' sequence was labelled with a fluorophore and a quencher at the ends of the strand.

Strand displacement of double-stranded DNA by triplex-forming antiparallel purine-hairpins.

We characterize the binding affinity and the thermodynamics of hybridization of triplex-forming antiparallel purine-hairpins composed of two antiparallel purine domains linked by a loop directed toward single-stranded and double-stranded DNA (ssDNA, dsDNA). Gel retardation assays and melting experiments reveal that a 13-mer purine-hairpin binds specifically and with a K ( d ) of 8 x 10(8) M to polypyrimidine ssDNA to form a triple helical structure. Remarkably, we show that purine-hairpins also bind polypurine/polypyrimidine stretches included in a dsDNA of several hundred bp in length.

Magnetically trigged direct electrochemical detection of DNA hybridization using Au67 quantum dot as electrical tracer.

A novel gold nanoparticle-based protocol for detection of DNA hybridization based on a magnetically trigged direct electrochemical detection of gold quantum dot tracers is described. It relies on binding target DNA (here called DNA1) with Au(67) quantum dot in a ratio 1:1, followed by a genomagnetic hybridization assay between Au(67)-DNA1 and complementary probe DNA (here called DNA2) marked paramagnetic beads. Differential pulse voltammetry is used for a direct voltammetric detection of resulting Au(67) quantum dot-DNA1/DNA2-paramagnetic bead conjugate on magnetic graphite-epoxy composite electrode.

Toward an ICPMS-linked DNA assay based on gold nanoparticles immunoconnected through peptide sequences.

Gold nanoparticles modified with anti-mouse IgG have been used to trace oligonucleotides carrying a c-myc peptide. Two strategies, a dot-blot format as well as inductively coupled plasma mass spectrometry (ICPMS) have been used to detect the nanoparticle tracer. For both cases, oligonucleotide-peptide conjugates were first applied to a nitrocellulose membrane using a manifold attached to a suction device.

A straightforward synthesis of 5'-peptide oligonucleotide conjugates using N(alpha)-Fmoc-protected amino acids.

[reaction: see text] 5'-Peptide oligonucleotide conjugates were prepared stepwise on a single support using N(alpha)-Fmoc-protected amino acids and unprotected phosphate groups. The method uses commercially available reagents and is successful with most natural amino acids. The simplicity of the method may encourage researchers to prepare new oligonucleotide-peptide conjugates with novel properties.

"Parallel" and "antiparallel tail-clamps" increase the efficiency of triplex formation with structured DNA and RNA targets.

Sequence-specific triple-helix structures can be formed by parallel and antiparallel DNA clamps interacting with single-stranded DNA or RNA targets. Single-stranded nucleic acid molecules are known to adopt secondary structures that might interfere with intermolecular interactions. We demonstrate the correlation between a secondary structure involving the target--a stable stem predicted by in silico folding and experimentally confirmed by thermal stability and competition analyses--and an inhibitory effect on triplex formation.

Synthesis of oligoribonucleotides containing 4-thiouridine using the convertible nucleoside approach and the 1-(2-fluorophenyl)-4-methoxypiperidin-4-yl group.

Oligoribonucleotides containing 4-thiouridine were prepared using the Fpmp group for protection of the 2'-OH. Two uridine derivatives with the 1,2,4-triazolyl and the 2-nitrophenyl groups at position 4 were used to obtain 4-thiouridine by postsynthetic substitution with sodium hydrogen sulfide. Both uridine derivatives allow the preparation of the desired oligonucleotides in good yields.

Effect of base stacking on the relative thermodynamic stability of oligonucleotide complexes: a spectroscopic study.

Three-strand oligonucleotide complexes are employed to assess the effect of base stacking and base pair mismatch on the relative thermodynamic stabilities of oligonucleotide duplexes. The melting behavior of three-strand oligonucleotide complexes incorporating nicks and gaps as well as internal single base mismatches is monitored using temperature-dependent optical absorption spectroscopy. A sequential three-state equilibrium model is used to analyze the measured melting profiles and evaluate thermodynamic parameters associated with dissociation of the complexes.

Transgenic rice plants expressing the antifungal AFP protein from Aspergillus giganteus show enhanced resistance to the rice blast fungus Magnaporthe grisea.

The Aspergillus giganteus antifungal protein (AFP), encoded by the afp gene, has been reported to possess in vitro antifungal activity against various economically important fungal pathogens, including the rice blast fungus Magnaporthe grisea. In this study, transgenic rice ( Oryza sativa ) constitutively expressing the afp gene was generated by Agrobacterium -mediated transformation. Two different DNA constructs containing either the afp cDNA sequence from Aspergillus or a chemically synthesized codon-optimized afp gene were introduced into rice plants.

Monitoring denaturation behaviour and comparative stability of DNA triple helices using oligonucleotide-gold nanoparticle conjugates.

Gold nanoparticle labels, combined with UV-visible optical absorption spectroscopic methods, are employed to probe the temperature-dependent solution properties of DNA triple helices. By using oligonucleotide-nanoparticle conjugates to characterize triplex denaturation, for the first time triplex to duplex melting transitions may be sensitively monitored, with minimal signal interference from duplex to single strand melting, for both parallel and antiparallel triple helices. Further, the comparative sequence-dependent stability of DNA triple helices may also be examined using this approach.

Potent inhibition of HhaI DNA methylase by the aglycon of 2-(1H)-pyrimidinone riboside (zebularine) at the GCGC recognition domain.

A short oligodeoxynucleotide (ODN) with 2-(1H)-pyrimidinone at the HhaI DNA methyltransferase target site (GCGC) is shown to induce a level of inhibition of methyl transfer and thermal stability of the complex with the enzyme identical to that achieved with a similar ODN substituted with 5-azacytosine. The drugs responsible for these effects-zebularine and 5-azacytidine/2'-deoxy-5-azacytidine-are contrasted in terms of chemical stability and possible metabolic activation by a brief structure-activity analysis.

Synthesis, stability, and protonation studies of a self-complementary dodecamer containing the modified nucleoside 2'-deoxyzebularine.

The nucleoside 2'-deoxyzebularine (K) was incorporated into the self-complementary dodecamer 5'-CGTACGKGTACG-3' by solid-phase 2-cyanoethylphosphoramidite chemistry using dimethoxytrityl (DMT) as the 5'-hydroxyl protecting group. Standard synthesis cycles using trichloroacetic acid and short ammonia treatment (50 degrees C for 30 min) were found to be the optimal conditions to obtain the desired dodecamer with minimum acid and basic degradation of the acid- and base-sensitive 2-pyrimidinone residue. The protonation equilibria of the K nucleoside and of the dodecamer at 37 degrees C were studied by means of spectroscopically monitored titrations.

Antiparallel triple helices. Structural characteristics and stabilization by 8-amino derivatives.

The structural, dynamical, and recognition properties of antiparallel DNA triplexes formed by the antiparallel d(G#G.C), d(A#A.T), and d(T#A.

Properties of triple helices formed by oligonucleotides containing 8-aminopurines.

The synthesis of parallel hairpins carrying 8-aminopurines is described. These hairpins have a high affinity for specific polypyrimidine sequences resulting in the formation of very stable triplexes.

Resolution of parallel and antiparallel oligonucleotide triple helices formation and melting processes by multivariate curve resolution.

A procedure is described for the complete resolution of concentration profiles of oligonucleotide triplexes as a function of pH and temperature. The pH and temperature ranges at which triplexes are present and the relative concentrations of all the species involved in acid-base and conformational equilibria are successfully estimated from Multivariate Curve Resolution analysis of UV absorbance spectra recorded along acid-base titrations and melting experiments of single stranded, hairpin and their mixtures. The dependence of formation constants upon pH was successfully estimated.

Convenient synthesis of 8-amino-2'-deoxyadenosine.

We studied the behaviour of 8-azido-2'-deoxyadenosine and 8-bromo-2'-deoxyadenosine in aqueous solutions of ammonia and primary and secondary amines. Unexpectedly, 8-Azido-2'-deoxyadenosine is converted to 8-amino-2'-deoxyadenosine in excellent yields. The use of this reaction for the preparation of 8-aminoadenine derivatives needed for the preparation of oligonucleotides carrying 8-aminoadenine is discussed.

Iodouracil-mediated photocrosslinking of DNA to EcoRII restriction endonuclease in catalytic conditions.

We used a XeCl excimer laser with 50 ns pulses, a frequency of 0.3 Hz and a wavelength of 308 nm in appropriate conditions for the photocrosslinking of EcoRII restriction endonuclease to a 14-mer DNA duplex, containing a 5-iodo-2'-deoxyuridine residue (IdU). IdU replaced the thymidine residue within the EcoRII recognition sequence 5'-CCT/AGG.

Synthesis of labelled PNA oligomers by a post-synthetic modification approach.

The preparation of t-butoxycarbonyl (Boc)-protected O(4)-(o-nitrophenyl) thymine peptide nucleic acid (PNA) monomer is described. This PNA monomer was incorporated into PNA oligomer sequences. The post-synthetic modification of the oligomers to yield fluorescently-labelled PNA oligomers was studied before and after the removal of the protecting groups.