Abstract: The disclosure relates to oligonucleotide compounds (oligomers) that target Myc mRNA in a cell, leading to reduced expression of Myc. Reduction of Myc expression is beneficial for the treatment of certain disorders, such as hyperproliferative disorders (e.g., cancer). The disclosure provides therapeutic compositions comprising oligomers and methods for modulating the expression of Myc using said oligomers, including methods of treatment.

Abstract: The disclosure relates to oligonucleotide compounds (oligomers) that target Myc mRNA in a cell, leading to reduced expression of Myc. Reduction of Myc expression is beneficial for the treatment of certain disorders, such as hyperproliferative disorders (e.g., cancer). The disclosure provides therapeutic compositions comprising oligomers and methods for modulating the expression of Myc using said oligomers, including methods of treatment.

Abstract: The present invention provides a novel method for ligation of oligonucleotides containing 5′-phosphorothioates on complementary templates by the action of DNA ligases. This reaction is readily applied to the synthesis of a single stranded circular DNA containing a phosphorothioate linkage at the site of ligation junction. The efficiency of 5′-phosphorothioate directed ligation reaction by ATP dependent DNA ligase reaction is similar to conventional 5′-phosphate ligation. The utility of enzymatic ligation in probing specific sequences of DNA is also described. The present invention also provides a novel non-enzymatic ligation of 5′-phosphorothioates that has been applied to the synthesis of single strand phosphorothioate and phosphate circular DNA.

Abstract: The present invention provides a novel method for ligation of oligonucleotides containing 5′-phosphorothioates on complementary templates by the action of DNA ligases. This reaction is readily applied to the synthesis of a single stranded circular DNA containing a phosphorothioate linkage at the site of ligation junction. The efficiency of 5′-phosphorothioate directed ligation reaction by ATP dependent DNA ligase reaction is similar to conventional 5′-phosphate ligation. The utility of enzymatic ligation in probing specific sequences of DNA is also described. The present invention also provides a novel non-enzymatic ligation of 5′-phosphorothioates that has been applied to the synthesis of single strand phosphorothioate and phosphate circular DNA.

Abstract: The present invention provides a novel method for ligation of oligonucleotides containing 5′-phosphorothioates on complementary templates by the action of DNA ligases. This reaction is readily applied to the synthesis of a single stranded circular DNA containing a phosphorothioate linkage at the site of ligation junction. The efficiency of 5′-phosphorothioate directed ligation reaction by ATP dependent DNA ligase reaction is similar to conventional 5′-phosphate ligation. The utility of enzymatic ligation in probing specific sequences of DNA is also described. The present invention also provides a novel non-enzymatic ligation of 5′-phosphorothioates that has been applied to the synthesis of single strand phosphorothioate and phosphate circular DNA.

Abstract: C-nucleosides are synthesized by a method in which a sugar is derivatized in a single step to provide a heterocycle at the C1 position, and then the heterocycle is aromatized in another single step. In one class of preferred embodiments a cyano sugar is converted into thiocarboxamide, and subsequently condensed to form an azole ring. In a second class of preferred embodiments a cyano sugar is condensed with an amino acid to provide the azole ring. In a third class of preferred embodiments a halo sugar is condensed with a preformed heterocycle to provide the azole ring.

Abstract: The present invention provides a novel method for ligation of oligonucleotides containing 5′-phosphorothioates on complementary templates by the action of DNA ligases. This reaction is readily applied to the synthesis of a single stranded circular DNA containing a phosphorothioate linkage at the site of ligation junction. The efficiency of 5′-phosphorothioate directed ligation reaction by ATP dependent DNA ligase reaction is similar to conventional 5′-phosphate ligation. The utility of enzymatic ligation in probing specific sequences of DNA is also described. The present invention also provides a novel non-enzymatic ligation of 5′-phosphorothioates that has been applied to the synthesis of single strand phosphorothioate and phosphate circular DNA.