Abstract: 2′-O-Modified ribosyl nucleosides and modified methods containing such nucleosidic monomers are disclosed. Methods are disclosed that have increased binding affinity as shown by molecular modeling experiments. Methods are also disclosed for enhancing the renal uptake of oligomeric compounds as shown using a two-step HRP imunohistochemistry assay. The 2′-O-modified nucleosides of the invention include ring structures that position the sugar moiety of the nucleosides preferentially in 3′ endo geometries.

Abstract: 2′-O-Modified ribosyl nucleosides and modified oligomeric compounds containing such nucleosidic monomers are disclosed. Oligomeric compounds are disclosed that have increased binding affinity as shown by molecular modeling experiments. The 2′-O-modified nucleosides of the invention include ring structures that position the sugar moiety of the nucleosides preferentially in 3′ endo geometries.

Abstract: Compositions comprising novel di-nitrogen heterocycle compounds containing at least one N-meta-substituted alkaryl group are prepared. The compounds of the present invention are useful as antibacterial and as other pharmaceutical agents and as intermediates for preparation of other pharmaceutical agents. In addition, compounds of the present invention are useful as research reagents.

Abstract: Modified oligonucleotides containing at least one 2′,5′-internucleotide linkage are provided. The oligonucleotides of the invention may also bear additional substituents at the 2′- and 3′-positions.

Abstract: Oligonucleotide analogs are disclosed having pyrimidine monomeric sub-units therein that are modified at the 2′ and 5′ positions. Monomeric sub-units having these modifications may be further modified at the 2′ position. Improved processes for the synthesis of 2′-O-substituted pyrimidine nucleosides are also provided. The processes feature alkylation of a 2,2′-anhydropyrimidine nucleoside or a 2S,2′-anhydropyrimidine nucleoside with a weak nucleophile in the presence of a Lewis acid.

Abstract: Nucleosidic monomers and oligomeric compounds prepared therefrom are provided which have increased nuclease resistance, substituent groups (such as 2′-aminooxy groups) for increasing binding affinity to complementary strand, and regions of 2′-deoxy-erythro-pentofuranosyl nucleotides that activate RNase H. Such oligomeric compounds are useful for diagnostics and other research purposes, for modulating the expression of a protein in organisms, and for the diagnosis, detection and treatment of other conditions susceptible to oligonucleotide therapeutics.

Abstract: The present invention is directed to nucleoside monomers wherein the 3′-O atom is replaced with a methylene group. The present invention also provides oligomers comprising a plurality of such monomers which are linked by methylene phosphonate linkages. Further, methods of preparing monomers and oligomers according to the present invention are provided.

Abstract: A method of modulating the expression of a nucleic acid in the hepatic system of a mammal is disclosed. In addition, a method of preferentially targeting an oligonucleotide to liver cells in a mammal is disclosed. Also, a method of treating an animal having a hepatic disease or disorder associated with a protein encoded by a gene is disclosed. A composition containing an oligonucleotide is disclosed.

Abstract: Compositions and methods are provided for the treatment and diagnosis of diseases amenable to modulation of the production of selected proteins. In accordance with preferred embodiments, oligonucleotides and oligonucleotide analogs are provided which are specifically hybridizable with a selected sequence of RNA or DNA wherein at least one of the 2′-deoxyfuranosyl moieties of the nucleoside unit is modified. Treatment of diseases caused by various viruses and other causative agents is provided.

Abstract: Modified dimers having a ribose sugar moiety in the 5′ nucleoside and a 2′ modified sugar in the 3′ nucleoside are provided. The modified dimers are useful in the preparation of oligonucleotide analogs having enhanced properties compared to native oligonucleotides, including increased nuclease resistance, enhanced binding affinity and improved protein binding.

Abstract: Linked nucleosides having at least one functionalized nucleoside that bears a substituent such as a steroid molecule, a reporter molecule, a non-aromatic lipophilic molecule, a reporter enzyme, a peptide, a protein, a water soluble vitamin, a lipid soluble vitamin, an RNA cleaving complex, a metal chelator, a porphyrin, an alkylator, a pyrene, a hybrid photonuclease/intercalator, or an aryl azide photo-crosslinking agent exhibit increased cellular uptake and other properties. The substituent can be attached at the 2′-position of the functionalized nucleoside via a linking group.

Abstract: Compositions and methods for modulating the activity of RNA are disclosed. In accordance with preferred embodiments, antisense compositions are prepared comprising targeting and reactive portions. The reactive portions preferably comprise one or two imidazole functionalities conjugated to the targeting oligonucleotide via linkers with or without intervening intercalating moieties. Therapeutics, diagnostics and research methods also are disclosed, as are synthetic nucleosides and nucleoside fragments that can be elaborated into oligonucleotides.

Abstract: 2′-O-Modified ribosyl nucleosides and modified oligomeric compounds containing such nucleosidic monomers are disclosed. Oligomeric compounds are disclosed that have increased binding affinity as shown by molecular modeling experiments. The 2′-O-modified nucleosides of the invention include ring structures that position the sugar moiety of the nucleosides preferentially in 3′ endo geometries.

Abstract: The present invention is directed to nucleoside monomers wherein the 3′-O atom is replaced with a methylene group. The present invention also provides oligomers comprising a plurality of such monomers which are linked by methylene phosphonate linkages. Further, methods of preparing monomers and oligomers according to the present invention are provided.

Abstract: The present invention provides oligomers which are specifically hybridizable with a selected sequence of RNA or DNA wherein at least one of the nucleoside moieties of the oligomer is modified to include a guanidinium group. These oligomers are useful for diagnostic, therapeutic and investigative purposes.

Abstract: The present invention is directed to &agr;-modified nucleoside triphosphates and methods for their preparation. The present invention also provides for methods of inhibiting RNA and viral replication in cells, as well as methods for treating viral infections.

Abstract: The present invention provides oligomers which are specifically hybridizable with a selected sequence of RNA or DNA wherein at least one of the nucleoside moieties of the oligomer is modified to include a guanidinium group. These oligomers are useful for diagnostic, therapeutic and investigative purposes.

Abstract: Nucleosidic monomers and oligomeric compounds prepared therefrom are provided which have increased nuclease resistance, substituent groups (such as 2′-aminooxy groups) for increasing binding affinity to complementary strand, and regions of 2′-deoxy-erythro-pentofuranosyl nucleotides that activate RNase H. Such oligomeric compounds are useful for diagnostics and other research purposes, for modulating the expression of a protein in organisms, and for the diagnosis, detection and treatment of other conditions susceptible to oligonucleotide therapeutics.

Abstract: Novel macrocyclic compounds are constructed to include large cyclic structures that are interrupted by at least one ring system. Each interrupting ring system includes two bridgehead atoms. Bridgehead atoms are bonded to one or more bridges that interconnect one or more ring systems thereby forming a large cyclic structure. Located in each bridge are two or more nitrogenous moieties that are derivatized with chemical functional groups. The ring systems can include further nitrogenous moieties, either as ring atoms or on pendant groups attached to the ring. These can also be derivatized with chemical functional groups. The totality of the chemical functional groups imparts certain conformational and other properties to the macrocyclic compounds. In accordance with certain embodiments of the invention, libraries of such macrocyclic compounds are prepared utilizing permutations and combinations of the chemical functional groups and the nitrogenous moieties to build complexity into the library.

Abstract: Linked nucleosides having at least one functionalized nucleoside that bears a substituent such as a steroid molecule, a reporter molecule, a non-aromatic lipophilic molecule, a reporter enzyme, a peptide, a protein, a water soluble vitamin, a lipid soluble vitamin, an RNA cleaving complex, a metal chelator, a porphyrin, an alkylator, a pyrene, a hybrid photonuclease/intercalator, or an aryl azide photo-crosslinking agent exhibit increased cellular uptake and other properties. The substituent can be attached at the 2′-position of the functionalized nucleoside via a linking group.