Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention provides devices and compositions for the management of infection of topical lesions, each of the devices and compositions containing protonated/acidified nucleic acids either on its surface, or integrated into the device. These modified nucleic acids are effective as bactericidal and/or bacteriostatic agents without regard to the class of bacteria, so are especially useful when diagnosis is difficult or when multiple infectious organisms are present. The antibiotic activity of nucleic acids of the invention is not dependent on either the specific sequence of the nucleic acid or the length of the nucleic acid molecule. The nucleic acids used in the invention are protonated/acidified to give a pH when dissolved in water of less than pH 7 to about 1, more preferably less than pH 4.5 to about 1, and even more preferably less than pH 2 to about 1.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: This invention relates to antisense oligonucleotides that target mRNAs in cells as substrates for the cellular enzyme RNase H and thereby cause specific degradation of the targeted mRNA. The oligonucleotides have three components: an RNase H activating region, a complementary region and 3? and 5? ends. The invention optimizes each of the components to resist intracellular nucleases, to increase hybridization to target mRNA, to specifically inactivate target mRNA in cells, and to decrease cytotoxicity.

Abstract: The present invention provides devices and compositions for the management of infection of topical lesions, each of the devices and compositions containing protonated/acidified nucleic acids either on its surface, or integrated into the device. These modified nucleic acids are effective as bactericidal and/or bacteriostatic agents without regard to the class of bacteria, so are especially useful when diagnosis is difficult or when multiple infectious organisms are present. The antibiotic activity of nucleic acids of the invention is not dependent on either the specific sequence of the nucleic acid or the length of the nucleic acid molecule. The nucleic acids used in the invention are protonated/acidified to give a pH when dissolved in water of less than pH 7 to about 1, more preferably less than pH 4.5 to about 1, and even more preferably less than pH 2 to about 1.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention provides protonated compounds having antimicrobial activity. The invention also provides antimicrobial compositions comprising protonated compounds of the invention. The protonated compounds of the invention provide efficacious antimicrobial activity against resistant strains of bacteria and opportunistic fungi.

Abstract: This invention relates to antisense oligonucleotides that target mRNAs in cells as substrates for the cellular enzyme RNase H and thereby cause specific degradation of the targeted mRNA. The oligonucleotides have three components: an RNase H activating region, a complementary region and 3? and 5? ends. The invention optimizes each of the components to resist intracellular nucleases, to increase hybridization to target mRNA, to specifically inactivate target mRNA in cells, and to decrease cytotoxicity.

Abstract: This invention relates to antisense oligonucleotides that target mRNAs in cells as substrates for the cellular enzyme RNase H and thereby cause specific degradation of the targeted mRNA. The oligonucleotides have three components: an RNase H activating region, a complementary region and 3? and 5? ends. The invention optimizes each of the components to resist intracellular nucleases, to increase hybridization to target mRNA, to specifically inactivate target mRNA in cells, and to decrease cytotoxicity.

Abstract: The present invention provides protonated compounds having antimicrobial activity. The invention also provides antimicrobial compositions comprising protonated compounds of the invention. The protonated compounds of the invention provide efficacious antimicrobial activity against resistant strains of bacteria and opportunistic fungi.

Abstract: The present invention provides devices and compositions for the management of infection of topical lesions, each of the devices and compositions containing protonated/acidified nucleic acids either on its surface, or integrated into the device. These modified nucleic acids are effective as bactericidal and/or bacteriostatic agents without regard to the class of bacteria, so are especially useful when diagnosis is difficult or when multiple infectious organisms are present. The antibiotic activity of nucleic acids of the invention is not dependent on either the specific sequence of the nucleic acid or the length of the nucleic acid molecule. The nucleic acids used in the invention are protonated/acidified to give a pH when dissolved in water of less than pH 7 to about 1, more preferably less than pH 4.5 to about 1, and even more preferably less than pH 2 to about 1.

Abstract: The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Abstract: The present invention provides devices and compositions for the management of infection of topical lesions, each of the devices and compositions containing protonated/acidified nucleic acids either on its surface, or integrated into the device. These modified nucleic acids are effective as bactericidal and/or bacteriostatic agents without regard to the class of bacteria, so are especially useful when diagnosis is difficult or when multiple infectious organisms are present. The antibiotic activity of nucleic acids of the invention is not dependent on either the specific sequence of the nucleic acid or the length of the nucleic acid molecule. The nucleic acids used in the invention are protonated/acidified to give a pH when dissolved in water of less than pH 7 to about 1, more preferably less than pH 4.5 to about 1, and even more preferably less than pH 2 to about 1.

Abstract: The invention provides a class of oligonucleotide that is optimized to target a specific RNA for RNAse H degradation and to be itself resistant to degradation within in plasma and within eukaryotic, especially mammalian cells. The oligonucleotides of the invention contain no naturally occurring 5′→3′-linked nucleotides. Rather, the invention provides oligonucleotides having two types of nucleotides: 2′-deoxyphosphorothioate, which activate RNase H, and 2′-modified nucleotides, which do not. The linkages between the 2′-modified nucleotides can be phosphodiesters, phosphorothioate or P-ethoxyphosphodiester. Activation of RNAse H is accomplished by a contiguous, RNAse H-activating region, which contains between three and five 2′-deoxyphosphorothioate nucleotides to activate bacterial RNAse H and between five and ten 2′-deoxyphosphorothioate nucleotides to activate eukaryotic and, particularly, mammalian RNAse H.

Abstract: This patent describes the invention of a series of novel therapeutic oligonucleotides targeted at inhibiting expression of genes coding for Phosphodiesterase 4. They are useful as analytical tools in the study of individual PDE isoforms and in the therapeutic treatment of depression, thrombosis, cystic fibrosis, gastric lesions, pulmonary hypertension, glaucoma, multiple sclerosis, atopic dermatitis, asthma and other allergic disorders as well as other illnesses in which an increase of cyclic AMP or a decrease in phosphodiesterase levels is useful.