Biofilms are provided which are capable of regulating their own thickness, reducing contamination and preventing biofouling. Constructs are introduced into bacteria that comprise nucleic acid molecules encoding an autoinducer synthase polypeptide, a transcriptional regulator and a biofilm dispersal protein. Nucleic acid molecules may also be introduced which encode a nitric oxide synthase, an epoxide hydrolase, or both. Biofilms of the bacteria may be used to reduce biofouling and contamination of a surface.

Biofilms are provided which are capable of regulating their own thickness, reducing contamination and preventing biofouling. Constructs are introduced into bacteria that comprise nucleic acid molecules encoding an autoinducer synthase polypeptide, a transcriptional regulator and a biofilm dispersal protein. Nucleic acid molecules may also be introduced which encode a nitric oxide synthase, an epoxide hydrolase, or both. Biofilms of the bacteria may be used to reduce biofouling and contamination of a surface.

The present disclosure relates to pharmaceutical compositions comprising a miRNA inhibitor, as well as the method for using such pharmaceutical compositions.

The present invention provides compositions and methods for reprogramming somatic cells using purified RNA preparations comprising single-strand mRNA encoding an iPS cell induction factor. The purified RNA preparations are preferably substantially free of RNA contaminant molecules that: i) would activate an immune response in the somatic cells, ii) would decrease expression of the single-stranded mRNA in the somatic cells, and/or iii) active RNA sensors in the somatic cells. In certain embodiments, the purified RNA preparations are substantially free of partial mRNAs, double-stranded RNAs, un-capped RNA molecules, and/or single-stranded run-on mRNAs.

The present invention provides compositions and methods for reprogramming somatic cells using purified RNA preparations comprising single-strand mRNA encoding an iPS cell induction factor. The purified RNA preparations are preferably substantially free of RNA contaminant molecules that: i) would activate an immune response in the somatic cells, ii) would decrease expression of the single-stranded mRNA in the somatic cells, and/or iii) active RNA sensors in the somatic cells. In certain embodiments, the purified RNA preparations are substantially free of partial mRNAs, double-stranded RNAs, un-capped RNA molecules, and/or single-stranded run-on mRNAs.

The invention refers to genetic engineering and can be used in biotechnology, medicine, and agriculture for the manufacture of gene therapy products. Gene therapy DNA vector based on the gene therapy DNA vector VTvaflV carrying the therapeutic gene selected from the group of NOS2, NOS3, VIP, KCNMA1, and CGRP genes is constructed in order to increase the expression level of this therapeutic gene in humans and animals, while gene therapy DNA vector VTvafl7-NOS2, or VTvaflV-NOS3, or VTvafl7-VIP, or VTvafl7-KCNMAI, or VTvafl7-CGRP has the nucleotide sequence SEQ ID No. 1, or SEQ ID No. 2, or SEQ ID No. 3, or SEQ ID No. 4, or SEQ ID No. 5, respectively.

The present invention is directed to an amphipathic peptide and methods of using the amphipathic peptide for delivering small molecule agents to a cell. Ideally, the amphipathic cell penetrating peptide comprises less than approximately 50 amino acid residues with at least 6 arginine residues, at least 12 Alanine Residues, at least 6 leucine residues, optionally at least one cysteine residue, and at least two but no greater than three glutamic acids wherein the arginine residues are evenly distributed along the length of the peptide; and the peptide has a defined ratio of arginine to negatively charged amino acid residues and a defined ratio of hydrophilic amino acid residues to hydrophobic amino acid residues. The present invention is also directed to a nanoparticle and cell delivery system comprising the amphipathic cell penetrating peptide of the invention. The peptide, nanoparticle or cell delivery system of the invention may be used in therapy. For example, the peptide may be used as a therapeutic agent delivery system, in which the therapeutic agent may include nucleic acids or other small molecules.

The present invention refers to an In vitro method for screening for subjects at risk of developing thoracic aortic aneurysm (TAA) or a disease causing TAA comprising: (a) measuring the expression pattern or level of at least A Disintegrin And Metalloproteinase with Thrombospondin Motifs 1 (ADAMTS1) obtained from an isolated biological sample of the subjects to be screened; and (b) comparing said expression pattern or level of at least ADAMTS1 of the subjects to be screened with an already established expression pattern or level, wherein reduced expression of at least ADAMTS1 is indicative of a thoracic aortic aneurysm (TAA).

A method comprising administering, to a subject in need thereof, an effective amount of a nucleotide effective to disrupt one or more pathways leading to sepsis. The nucleotide may be a nitric oxide disruptor effective to decrease the expression of inducible nitric oxide synthase. The nitric oxide disrupter may comprise a polynucleotide strand exhibiting at least 70% sequence identity to one of Sequence ID No. 1 through Sequence ID No. 47. Additionally or alternatively, the nucleotide may be an disintegrin and metalloproteinase (ADAM) enzyme inhibitor effective to decrease the expression of ADAM enzyme. The ADAM enzyme inhibitor may comprise a polynucleotide strand exhibiting at least 70% sequence identity to one of Sequence ID No. 48 through Sequence ID No. 56.

The present invention generally relates to compositions and methods for treatment of subjects having or at risk of arteriosclerosis, hypertension, sickle-cell anemia, or other conditions. In some cases, the composition may include nitric oxide. The nitric oxide may be present within a first phase comprising a lecithin, such as phosphatidylcholine. In certain embodiments, the lecithin is present in liposomes, micelles, or other vesicles containing nitric oxide. The composition can take the form of a gel, a cream, a lotion, an ointment, a solution, a solid stick, etc., that can be rubbed or sprayed onto the skin, e.g., onto a location with acne, or on another suitable portion of the skin. Other aspects of the present invention are generally directed to methods of making or using such compositions, methods of promoting such compositions, kits including such compositions, or the like.