The invention generally relates to methods and systems for preparing a plant material for extraction of useful cannabinoids and terpenoids from Cannabis.

The present disclosure relates to a compound of Formula (I)

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or a pharmaceutically acceptable salt thereof, which can be incorporated into a lipid particle for delivering an active agent, such as a nucleic acid.

Methods disclosed herein provide for an environmentally-friendly approach that employ citric extracts from fruits as unique reducing and stabilizing agents for making a tellurium nanomaterial. A particular method of making a tellurium nanomaterial includes combining citrus fruit extract with a tellurium salt to form a mixture of citrus fruit extract and dissolved tellurium salt; and heating the mixture of citrus fruit extract and dissolved tellurium salt, thereby making the tellurium nanomaterial. The resulting nanoparticles exhibit enhanced and desirable biomedical properties toward treatment of both infectious diseases and cancer.

The present disclosure relates to tertiary amino lipidated and/or PEGylated cationic peptide compounds and complexes thereof with nucleic acids for endocellular delivery, methods for preparing the compounds and complexes, and methods for delivering polyanionic compounds to cells.

Aspects of the disclosure relate to nucleic acid vaccines. The vaccines include one or more RNA polynucleotides having an open reading frame encoding one or more Chikungunya antigen(s), one or more Zika virus antigens, and one or more Dengue antigens. Methods for preparing and using such vaccines are also described.

Methods and compositions for inducing long-term tolerance by hybrid nanoparticles are provided. Compositions and formulations comprising hybrid nanoparticles with inherent affinity for innate immune cells are provided.

A facilitated method for use in efficient delivery of a pharmaceutical composition over a tissue such as the blood brain barrier and into neurons in the CNS for the treatment of Alzheimer's disease in a mammal, including man is provided. The method is comprising the steps of administrating a therapeutically effective amount of the isolated recombinant Bri2 BRICHOS and lipid microbubbles and enables an increased amount of the isolated recombinant protein to reach the brain to efficiently combat Aβ42 neurotoxicity.

Furthermore, a method for use in enhanced delivery of proteins comprising Bri2 BRICHOS and variants thereof over the blood-brain barrier, facilitating treatment and/or diagnostics of Alzheimer's disease and other neurological diseases is described herein. The method is comprising the steps of administrating a therapeutically effective amount of proteins comprising Bri2 BRICHOS and variants thereof as a first protein moiety coupled to another (non-Bri2) second protein or polypeptide moiety and optionally lipid microbubbles, in the absence of ultrasound treatment.

The invention relates to compositions and methods for the preparation, manufacture and therapeutic use ribonucleic acid vaccines comprising polynucleotide molecules encoding one or more influenza antigens, such as hemagglutinin antigens.

Compositions and methods for gene editing. In some embodiments, a polynucleotide encoding Cas9 is provided that can provide one or more of improved editing efficiency, reduced immunogenicity, or other benefits.

Spherical nucleic acids (SNA) carrying self-aggregating oligonucleotides are described herein. Compositions of the SNA include discrete nanostructures that are not aggregated. Related methods are also described.