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).

The disclosure relates, in some aspects, to compositions and methods useful for production of nitrated aromatic molecules. The disclosure is based, in part, on whole cell systems expressing artificial fusion proteins comprising cytochrome P450 enzymes linked to reductase enzymes. In some aspects, the disclosure relates to methods of producing nitrated aromatic molecules in whole cell systems having artificial fusion proteins comprising cytochrome P450 enzymes linked to reductase enzymes.

The application generally relates to bioproduction of molecules of interest in micro- organisms, more particularly in microalgae. In particular, the application relates to methods for increasing triacylglycerol production in micro-organisms, in particular in microalgae, using recombinant micro-organisms which have been genetically engineered to produce or overproduce nitric oxide (NO) and uses thereof.

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 provides reagents and methods for identifying compounds that promote arterial endothelial cell differentiation and nitric oxide production therefrom. Pharmaceutical compositions comprising compounds identified thereby are provided as are therapeutic methods using these pharmaceutical compositions for treating neural and cardiovascular diseases and disorders associated with deficient or disrupted nitric oxide production in arterial endothelial cells.

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 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).