Disclosed is an agent capable of inhibiting the activity or enhancing expression of various cancer-related RNAs in TAMS and cancer cells. Disclosed is also a dual-targeted drug delivery system capable of binding to both tumor cells and macrophages in which the PD-L1 receptor is overexpressed.

Compositions and methods are provided for forming a single RNA polynucleotide from a plurality of DNA oligonucleotides in a single reaction chamber using combined reagents in a single step reaction. DNA polymerase, RNA polymerase and single stranded (ss) DNA oligonucleotides are combined where each DNA oligonucleotide has one or more sequence modules, wherein one sequence module in the first ss DNA oligonucleotide is complementary to a sequence module at the 3 end of the second ss DNA oligonucleotide; and wherein a second module on the first ss DNA oligonucleotide is an RNA polymerase promoter sequence; and forming a single RNA polynucleotide, excluding the RNA promoter sequence, derived from the first and second DNA oligonucleotides.

An insulin analogue comprises a B-chain polypeptide containing a cyclohexanylalanine substitution at position B24 and optionally containing additional amino-acid substitutions at positions A8, B28, and/or B29. A proinsulin analogue or single-chain insulin analogue contains a B domain containing a cyclohexanylalanine substitution at position B24 and optionally contains additional amino-acid substitutions at positions A8, B28, and/or B29. The analogue may be an analogue of a mammalian insulin, such as human insulin. A nucleic acid encoding such an insulin analogue is also provided. A method of lowering the blood sugar of a patient comprises administering a physiologically effective amount of the insulin analogue or a physiologically acceptable salt thereof to a patient. A method of semi-synthesis using an unprotected octapeptide by means of modification of an endogenous tryptic site by non-standard amino-acid substitutions.

The present invention relates to combination therapies for the treatment of a variety of disorders in mammals, including hepatic disorders and cancer. The combination of agents includes naturally-occurring (versus synthetic) oligonucleotides, particularly immunostimulatory oligodeoxynucleotides such as CpG ODNs, obtained from a natural source and one or more extracts from a Gram positive bacteria, such as Lactobacillus spp.

An insulin analog comprises a B-chain polypeptide containing a cyclohexanylalanine substitution at position B24 and optionally containing additional amino-acid substitutions at positions A8, B28, and/or B29. A proinsulin analog or single-chain insulin analog containing a B domain containing a cyclohexanylalanine substitution at position B24 and optionally containing additional amino-acid substitutions at positions A8, B28, and/or B29. The analog may be an analog of a mammalian insulin, such as human insulin. A nucleic acid encoding such an insulin analog is also provided. A method of lowering the blood sugar of a patient comprises administering a physiologically effective amount of the insulin analog or a physiologically acceptable salt thereof to a patient. A method of semi-synthesis using an unprotected octapeptide by means of modification of an endogenous tryptic site by non-standard amino-acid substitutions.

The present invention relates to a microcolumn device for selecting nucleic acid aptamers for single and multiple target molecules, as well as a method for making the microcolumn device. The present invention also relates to a system for selecting nucleic acid aptamers for single and multiple target molecules. The present invention further relates to methods of using the microcolumn device for selecting nucleic acid aptamers for multiple target molecules. Kits that include one or more microcolumn device and/or system of the present invention are also disclosed.

Disclosed are T7 RNA polymerase variants with enhanced transcriptional activity. T7 RNA polymerase variants are known which have the ability to incorporate modified ribonucleotides into growing RNA molecules. However, these variants have relatively low levels of transcriptional activity. Presented herein are mutations that increase the transcriptional activity of the variants with broad substrate range.

The invention relates to a method for production of single-stranded macronucleotides by amplifying and ligating an extended monomeric single-stranded target nucleic acid sequence (target.sub.ss) into a repetitive cluster of double-stranded target nucleic acid sequences (target.sub.ds), and subsequently cloning the construct into a vector (aptagene vector). The aptagene vector is transformed into host cells for replication of the aptagene and isolated in order to optain single-stranded target sequences (target.sub.ss). The invention also relates to single-stranded nucleic acids, produced by a method of the invention.

The present invention relates to combination therapies for the treatment of a variety of disorders in mammals, including hepatic disorders and cancer. The combination of agents includes naturally-occurring (versus synthetic) oligonucleotides, particularly immunostimulatory oligodeoxynucleotides such as CpG ODNs, obtained from a natural source and one or more extracts from a Gram positive bacteria, such as Lactobacillus spp.

The present subject matter relates to the use conditional hairpins, such as, but not limited to shRNAs. The conditional formation of these structures can allow for further events, such as gene silencing (in some embodiments).