The present invention relates to hydrogels and polymers suitable as building blocks for hydrogels as well as advantageous methods for encapsulating cells and/or particles. Also provided are kits and methods for producing the hydrogels.

Embodiment disclosed herein concern compositions and methods for altering bacterial fitness. In certain aspects, altering bacterial fitness slows or prevents development of adaptive resistance to antibiotics in bacteria. In certain embodiments disclosed herein, bacterial fitness is altered by perturbing expression of a group of target genes.

The present invention provides compositions and methods for treating cancer with peptide nucleic acid agents. In some embodiments, the present invention provides methods and compositions relating to peptide nucleic acid agents that target oncogenes. For example, the present invention provides compositions, including pharmaceutical compositions, comprising agents specific for BRAF V600E inhibition, or fragments or characteristic portions thereof. The present invention further provides various therapeutic and/or diagnostic methods of using BRAF V600E specific peptide nucleic acid agents and/or compositions.

A method of making optically pure preparations of chiral PNA (gamma peptide nucleic acid) monomers is provided. Nano structures comprising chiral PNA structures also are provided. Methods of amplifying and detecting specific nucleic acids, including in situ methods are provided as well as compositions and kits useful in those methods. Lastly, methods of converting nucleobase sequences from right-handed helical PNA, nucleic acid and nucleic acid analog structures to left-handed PNA, and vice-versa, are provided.

The present invention provides compositions and methods for treating cancer with peptide nucleic acid agents. In some embodiments, the present invention provides methods and compositions relating to peptide nucleic acid agents that target oncogenes. For example, the present invention provides compositions, including pharmaceutical compositions, comprising agents specific for BRAF V600E inhibition, or fragments or characteristic portions thereof. The present invention further provides various therapeutic and/or diagnostic methods of using BRAF V600E specific peptide nucleic acid agents and/or compositions.

This invention is generally related to modified peptidic oligomers that have an increased ability to reach the cytosol or nucleus. In some embodiments, the modified peptidic oligomer molecules deliver an associated cargo molecule to the cytosol or nucleus. Other embodiments of the invention relate to modified peptidic oligomer fusion molecules that reach the cytosol or nucleus.

Aspects of the disclosure relate to a method for evaluating two or more target proteins of interest from the same family in a specified functional form, the method comprising: (i) contacting a composition comprising or suspected of comprising the two or more proteins of interest with a molecular construct comprising: a targeting group operatively linked to a retrieval tag; wherein the targeting group specifically binds to the specialized functional form of the two or more target proteins of interest; (ii) contacting the composition with at least two antibody-oligo constructs, wherein at least one of the constructs comprises a first antibody operatively linked to a first oligo and at least a second construct comprises a second antibody operatively linked to a second oligo; wherein the first antibody specifically binds to one of the two or more target proteins of interest and the second antibody specifically binds to the other of the two or more target proteins of interest; (iii) contacting the composition with a second molecular construct comprising a retrieval tag binder operatively linked to a retrieval oligo; (iv) incubating the composition under conditions sufficient for the ligation or annealing of the first oligo to the retrieval oligo when the first and retrieval oligos are in close proximity to each other and ligation or annealing of the second oligo to the retrieval oligo when the second and retrieval oligos are in close proximity to each other; and (v) detecting the ligated or annealed first and retrieval oligo and the ligated or annealed second and retrieval oligo.

The present disclosure is directed to conjugates of a specific binding entity and an oligomer, i.e. [Specific Binding Entity]-[Oligomer].sub.n, wherein n is an integer ranging from 1 to 12, and where the Oligomer includes, in some embodiments, a PNA sequence having at least one substituent at a gamma carbon position. In some embodiments, the substituent at the gamma carbon position, e.g. an amino acid, a peptide, a miniPEG, or a polymer, includes at least one reporter moiety.

This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-AGG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No. 18), CCG-GGT-GCA-TTC-CA (Seq. Id. No. 19), ATG-TAG-AAC-GGA-ACT-A (Seq. Id. No. 20), GAT-TCT-CGG-CCC-CAT-G (Seq. Id. No. 21), CTG-GTT-CGC-CAA-AAA-G (Seq. Id. No. 22) and AGT-ACG-CAT-CAG-AAA (Seq. Id. No. 23).

Disclosed are compositions for the treatment of Gram-positive bacteria infection and inhibition of Gram-positive bacteria growth. The compositions comprise a peptide nucleic acid linked to a cell-penetrating peptide (PNA-CPP). The PNA-CPP conjugate and compositions inhibit expression of bacterial proteins and are optionally administered in the form of nanoparticle compositions and antimicrobial fabrics.