Abstract: Compounds are described and claimed comprising general formula: The compounds have substituents as described herein and are useful, e.g., for their ability to bind nucleic acids and thereby effect purifications, probing techniques and gene inhibition.

Abstract: The present invention relates generally to oligonucleotide analogues that include novel protein nucleic acid molecules (PNAs), particularly monomers, dimers, oligomers thereof and methods of making and using these oligonucleotide analogues. The PNAs of the present invention are characterized as including a variety of classes of molecules, such as, for example, hydroxyproline peptide nucleic acids (HypNA), and serine peptide nucleic acids (SerNA). The invention includes monomers, homodimers, heterodimers, homopolymers and heteropolymers of these and other oligonucleotide analogues. The present invention includes methods of using these oligonucleotide analogues in the detection and separating of nucleic acid molecules, including uses that include the utilization of oligonucleotide analogues on a solid support. The present invention also includes methods for purifying or separating nucleic acids, such as mRNA molecules, by hybridization with the oligonucleotides of the present invention.

Abstract: Peptides that are useful as transfection agents are described. The peptides can facilitate the efficient cellular internalization of a broad range and size of compounds that when non-covalently complexed therewith are efficiently internalized into a cell. Advantages include but are not limited to excellent transfection efficiency, relatively low toxicity, internalization by a broad host cell spectrum, and the simplicity and cost-effectiveness that arise from not having to covalently complex the peptide with a specific molecule to be delivered. Applications include but are not limited to the delivery of diagnostics and therapeutics, as well as drug discovery, gene discovery, and the analysis and/or manipulation of other cellular and molecular biological functions. claims are made for transfection agents, compositions of matter, including pharmaceutical compositions, reagent kits, methods of delivery, and methods of identification of additional peptides for performing and/or including in the same.

Abstract: The present invention relates generally to oligonucleotide analogues that include novel protein nucleic acid molecules (PNAs), particularly monomers, dimers, oligomers thereof and methods of making and using these oligonucleotide analogues. The PNAs of the present invention are characterized as including a variety of classes of molecules, such as, for example, hydroxyproline peptide nucleic acids (HypNA), and serine peptide nucleic acids (SerNA). The invention includes monomers, homodimers, heterodimers, homopolymers and heteropolymers of these and other oligonucleotide analogues. The present invention includes methods of using these oligonucleotide analogues in the detection and separating of nucleic acid molecules, including uses that include the utilization of oligonucleotide analogues on a solid support. The present invention also includes methods for purifying or separating nucleic acids, such as mRNA molecules, by hybridization with the oligonucleotides of the present invention.

Abstract: The present invention relates generally to oligonucleotide analogues that include novel protein nucleic acid molecules (PNAs), particularly monomers, dimers, oligomers thereof and methods of making and using these oligonucleotide analogues. The PNAs of the present invention are characterized as including a variety of classes of molecules, such as, for example, hydroxyproline peptide nucleic acids (HypNA), and serine peptide nucleic acids (SerNA). The invention includes monomers, homodimers, heterodimers, homopolymers and heteropolymers of these and other oligonucleotide analogues. The present invention includes methods of using these oligonucleotide analogues in the detection and separating of nucleic acid molecules, including uses that include the utilization of oligonucleotide analogues on a solid support. The present invention also includes methods for purifying or separating nucleic acids, such as mRNA molecules, by hybridization with the oligonucleotides of the present invention.