The present disclosure provides (i) isolated immunogenic TAA polypeptides (i.e., an immunogenic MUC1 polypeptides, an immunogenic MSLN polypeptides, and an immunogenic TERT polypeptides), (ii) isolated nucleic acid molecules encoding one or more immunogenic TAA polypeptides, (iii) compositions comprising an immunogenic TAA polypeptide or an isolated nucleic acid molecule encoding an immunogenic TAA polypeptide, and (iv) methods relating to uses of the polypeptides, nucleic acid molecules, and compositions.

Engineered chloride channel receptors, nucleic acids encoding these receptors, expression vectors including these nucleic acids are disclosed herein. Nanoparticles and pharmaceutical compositions including these engineered chloride channel receptors, nucleic acids, and expression vectors are disclosed. The use of these compositions and nanoparticles, such as for the treatment of pain, cystic fibrosis and asthma, is also disclosed.

An isoform of the TGF beta receptor II comprising a sequence of about of 80 amino acids and lacking a transmembrane domain; wherein the isoform is a TGF-1 agonist. The isoform comprises the amino acid sequence set forth in SEQ ID No. 12. The isoform may have the amino acid sequence set forth in SEQ ID No. 2 or sequences having at least 85% sequence identity to the sequence set forth in SEQ ID No. 2.

Novel polypeptide combinations, polynucleotides encoding the polypeptides, and related compositions and methods are disclosed for zcytor17-containing multimeric or heterodimer cytokine receptors that may be used as novel cytokine antagonists, and within methods for detecting ligands that stimulate the proliferation and/or development of hematopoietic, lymphoid and myeloid cells in vitro and in vivo. The present invention also includes methods for producing the multimeric or heterodimeric cytokine receptor, uses therefor and antibodies thereto.

The invention relates to novel designer osteogenic proteins having altered affinity for a cognate receptor, nucleic acids encoding the same, and methods of use therefor. More preferably, the novel designer osteogenic proteins are designer BMPs and have altered affinity for a cognate BMP receptor. The designer BMPs demonstrate altered biological characteristics and provide potential useful novel therapeutics.

Provided herein, in one aspect, are antibodies that immunospecifically bind to a human KIT antigen comprising the fourth and/or fifth extracellular Ig-like domains (that is, D4 and/or D5 domains), polynucleotides comprising nucleotide sequences encoding such antibodies, and expression vectors and host cells for producing such antibodies. The antibodies can inhibit KIT activity, such as ligand-induced receptor phosphorylation. Also provided herein are kits and pharmaceutical compositions comprising antibodies that specifically bind to a KIT antigen, as well as methods of treating or managing a KIT-mediated disorder or disease and methods of diagnosing a KIT-mediated disorder or disease using the antibodies described herein.

There are disclosed TIMP-3 muteins, variants and derivatives, nucleic acids encoding them, and methods of making and using them.

The invention provides calcium-binding photoproteins which can detect light emission with a higher sensitivity. The proteins of the invention comprising the amino acid sequence of SEQ ID NO: 2 can be used for the detection and measurement of calcium ions. The proteins of the invention are useful as reporter proteins, luminescent markers, etc. The polynucleotides of the invention are useful as reporter genes, etc.

The present invention relates to fusion proteins for the expression of G-protein coupled receptor proteins (GPCR) with the fusion partners, as inserted fragments, from mammalian cells. The fusion partners are from a fragment of APJ protein (the APJ protein fragment) or a fragment with homology of more than 90% similarity to the APJ protein fragment; or a fragment of RGS16 protein (the RGS16 protein fragment) or a fragment with homology of more than 90% similarity to the RGS16 protein fragment; or the fragment of DNJ protein (the DNJ protein fragment) or a fragment with homology of more than 90% similarity to DNJ protein fragment. The fusion expression of GPCR with the above mentioned fusion partners can improve the protein yield and stability when purified from cells. Therefore, these fusion protein partners can be widely used for the study of GPCR proteins.

Provided herein are recombinant adeno-associated virus (rAAV) compositions that can restore phenylalanine hydroxylase (PAH) gene function in cells, and methods for using the same to treat diseases associated with reduction of PAH gene function (e.g., PKU). Also provided are nucleic acids, vectors, packaging systems, and methods for making the adeno-associated virus compositions.