Editing of VEGFR2 abrogated angiogenesis in two mouse models of oxygen-induced retinopathy (OIR) and laser-induced choroid neovascularization (CNV). Provided are compositions, e.g., Adeno-Associated Virus (AAV) Vectors comprising sequences encoding CRISPR/Cas9 proteins and guide RNA, and methods of use thereof for editing of Vascular endothelial growth factor receptor 2 (VEGFR2) gene to treat ocular disease associated with pathological angiogenesis, e.g., neovascular age-related macular degeneration (AMD), proliferative diabetic retinopathy (PDR) and retinopathy of prematurity (ROP).

A nutritional composition comprises (a) one to a plurality of physiologically acceptable calcium salts and/or chelates and (b) one or more phosphorus-containing components, such as phosphate salts, and/or phosphorus-rescuing components, such as phytase. The composition is useful for phosphorus-sparing calcium supplementation of the diet of a human subject, and for treatment of a low bone density condition in a human subject in need thereof.

The present invention relates to esterases, more particularly to esterase variants having improved activity and/or improved themostability compared to the esterase of SEQ ID NO:1 and the uses thereof for degrading polyester containing material, such as plastic products. The esterases of the invention are particularly suited to degrade polyethylene terephthalate, and material containing polyethylene terephthalate.

The disclosure provides systems, methods, and compositions for a target specific nuclease and a blunting enzyme to correct frameshift mutations for genome editing and treatment of diseases. In some embodiments, the target specific nuclease and the blunting enzyme are combined with a guide RNA and/or a microhomology-mediated end joining (MMEJ) inhibitor.

To address the limitations deriving from the unspecific genomic cleavages of the Streptococcus pyogenes Cas9 (SpCas9) and to identify variants with higher cleavage fidelity, the present invention describes a yeast-based assay which allows to simultaneously evaluate the on- and off-target activity towards two engineered genomic targets. The screening of SpCas9 variants obtained by random mutagenesis of the Red-II domain allowed the identification of hits with increased on/off ratios. The best performing nuclease, evoCas9, was isolated through the combination of the identified mutations within a single variant. Side by side analyses with previously reported rationally designed variants demonstrated a significant improvement in fidelity of evoCas9 of the present invention.

A composition contains at least one probiotic or enzyme selected from the group consisting of (i) a probiotic having β-glycosidase activity or a β-glycosidase, (ii) a probiotic having esterase activity or an esterase, (iii) a probiotic having both β-glycosidase activity and esterase activity or an enzyme having both β-glycosidase activity and esterase activity, (iv) a first probiotic having β-glycosidase activity and a second probiotic having esterase activity, (v) a probiotic having β-glycosidase activity and an esterase, (vi) a β-glycosidase and a probiotic having esterase activity and (vii) a β-glycosidase and an esterase. The at least one probiotic can form one or more of oleuropein aglycone, elenolic acid, hydroxytyrosol acetate or hydroxytyrosol from oleuropein. The composition can comprise oleuropein. The composition can be for treating or preventing impaired mobility in an older adult; stimulating bone formation and/or inhibiting bone resorption; treating or preventing synovitis in an individual in need or at risk thereof or treating or preventing articular cartilage degradation subsequent to synovitis in an individual having or recovering from synovitis; or preventing or treating cartilage breakdown.

Some aspects of this disclosure provide compositions, methods, systems, and kits for controlling the activity and/or improving the specificity of RNA-programmable endonucleases, such as Cas9. For example, provided are guide RNAs (gRNAs) that are engineered to exist in an “on” or “off” state, which control the binding and hence cleavage activity of RNA-programmable endonucleases. Some aspects of this disclosure provide mRNA-sensing gRNAs that modulate the activity of RNA-programmable endonucleases based on the presence or absence of a target mRNA. Some aspects of this disclosure provide gRNAs that modulate the activity of an RNA-programmable endonuclease based on the presence or absence of an extended DNA (xDNA).

Compositions and methods are provided for the excision and replacement of an endogenous polynucleotide, such as a gene, using CRISPR-Cas systems. In some aspects, the gene is flanked by specific nucleotides that are targets of homology-directed repair, for the insertion of a replacement polynucleotide.

Disclosed is a combination of two or more lipase enzymes, and its use for treating a lipid digestion deficiency and/or a digestive disorder. At least one lipase enzyme has a pH optimum at an acidic pH value, while at least one other lipase enzyme has a pH optimum at an alkalic pH value.

The present disclosure provides compositions and methods for conducting prime editing of a target DNA molecule (e.g., a genome) that enables the incorporation of a nucleotide change and/or targeted mutagenesis. The nucleotide change can include a single-nucleotide change (e.g., any transition or any transversion), an insertion of one or more nucleotides, or a deletion of one or more nucleotides. More in particular, the disclosure provides fusion proteins comprising nucleic acid programmable DNA binding proteins (napDNAbp) and a polymerase (e.g., reverse transcriptase), which is guided to a specific DNA sequence by a modified guide RNA, named an PEgRNA. The PEgRNA has been altered (relative to a standard guide RNA) to comprise an extended portion that provides a DNA synthesis template sequence which encodes a single strand DNA flap, which is homologous to a strand of the targeted endogenous DNA sequence to be edited, but which contains the desired one or more nucleotide changes and which, following synthesis by the polymerase (e.g., reverse transcriptase), becomes incorporated into the target DNA molecule. Also disclosed herein are various methods that leverage prime editing, including treating trinucleotide repeat contraction diseases, installing targeted peptide tags, treating prion disease through the installation of protection mutations, manipulating RNA-encoding genes for the installation of RNA tags for controlling the function and expression of RNA, using prime editing to construct sophisticated gene libraries, using prime editing to insert immunoepitopes into proteins, use of prime editing to insert inducible dimerization domains into protein targets, and delivery methods, among others.