Abstract: Provided are fusion proteins between p97 (melanotransferrin) and iduronate-2-sulfatase (IDS), and related compositions and methods of use thereof, for instance, to facilitate delivery of IDS across the blood-brain barrier (BBB) and/or improve its tissue penetration in CNS and/or peripheral tissues, and thereby treat and/or diagnose Hunter Syndrome (Mucopolysaccharidosis type II; MPS II) and related lysosomal storage disorders, including those having a central nervous system (CNS) component.

Abstract: This invention relates, in part, to various compositions and methods for protecting the gastrointestinal microbiome from antibiotic disruption.

Abstract: This present disclosure relates to methods and compositions comprising biologically active nanoparticle formulations of MYC protein. Provided are methods of making the nanoparticle formulations and methods of using the nanoparticle formulations for treatment.

Abstract: A novel modified polypeptide having an isopropylmalate synthase activity, a polynucleotide encoding the same, a microorganism comprising the polypeptide, and a method of producing L-leucine by culturing the microorganism.

Abstract: Provided herein are compositions and methods that can remove, metabolize, or degrade a hydrocarbon in an area that is contaminated by hydrocarbons. Methods for bioremediation of an area such as an area of land, a body of water, or a shoreline that are contaminated by a hydrocarbon, such as from a crude oil spill are also described. The compositions and methods described herein can be used on natural flora and fauna as well as manmade materials that are contaminated by a hydrocarbon.

Abstract: The invention provides a new expression system comprising a mammalian selectable marker that promotes desirable post-translational modifications of glycoproteins. In particular, the invention includes methods and compositions for optimal recombinant protein expression in mammalian cells by employing a selection marker system based on GPT genes of mammalian origin. The invention includes methods that facilitate selectivity and enhanced expression copies as well as protein yield of recombinant proteins in mammalian cells, and methods of using GPT expression systems.

Abstract: The present invention relates to methods and pharmaceutical compositions for enhancing CD8+ T cell-dependent immune responses in subjects suffering from cancer. In particular, the present invention relates to a method of enhancing the CD8+ T cell-dependent immune response in a subject suffering from cancer comprising administering to the subject a therapeutically effective amount of an agent capable of increasing intra-tumoral ceramide content.

Abstract: The invention relates to a peptidomimetic of an NPC-1 epitope on the MUC5AC protein which is differentially expressed in pancreatic and colorectal cancer, and diagnostic and therapeutic usages. Further, antibodies that selectively bind the NPC-1 epitope peptidomimetics and may be used in diagnostic and therapeutic methods.

Abstract: The present invention provides recombinant butyrylcholinesterase fusion proteins, including Fc fusion proteins and multi-armed high MW polymers containing hydrophilic groups conjugated to the fusion proteins, and methods of preparing such polymers.

Abstract: Engineered CRISPR-Cas9 nucleases with improved specificity and their use in genomic engineering, epigenomic engineering, genome targeting, and genome editing.

Abstract: A system and method for reversibly controlling clustering of proteins around an engineered multivalent nucleus is disclosed. The system and method utilize clustering, which may be controlled by light activation or deactivation. The system and method enable the spatiotemporal control of protein supramolecular assemblies, including liquid-like droplets under some conditions, and solid-like gels under other conditions. The system and method can be utilized for segregating or locally concentrating desired proteins and/or RNA in cells or cell lysate, which may be useful for protein purification purposes, or for assembling single or multiple membraneless bodies within specific sub-regions of the cells. These synthetically assembled bodies may recruit both transgenic and endogenic proteins and other biomolecules, thus can be linked to affect and even trigger a plethora of cellular processes, including both physiological and pathological (e.g., protein aggregation) processes.

Abstract: The present invention relates to pharmaceutical compositions comprising a compound selected from the group consisting of: a) a polypeptide of SEQ ID NO:1, b) a functionally equivalent variant of the polypeptide according to a), c) a polynucleotide encoding a) or b), d) a vector comprising a polynucleotide according to c), e) a cell capable of secreting into the medium a polypeptide according to a) or b), and f) a nanoparticle comprising the polypeptide according to a) or b) and a pharmaceutically acceptable excipient. The invention also relates to the use of said compounds or pharmaceutical compositions for treatment and/or prevention of ischemia injury or ischemia/reperfusion injury in a subject.

Abstract: A protein construct including a gene encoding a light-sensitive protein fused to at least one of either a low complexity sequence, an intrinsically disordered protein region (IDR), or a repeating sequence of a linker and another gene encoding a light-sensitive protein. Among the many different possibilities contemplated, the protein construct may also advantageously include cleavage tags. This protein construct may be utilized for a variety of functions, including a method for protein purification, which requires introducing the protein construct into a living cell, and inducing the formation of clusters by irradiating the construct with light. The method may also advantageously include cleaving a target protein from an IDR, and separating the clusters via centrifuge. A kit for practicing in vivo aggregation or liquid-liquid phase separation is also included, the kit including the protein construct and a light source capable of producing a wavelength that the light-sensitive protein will respond to.

Abstract: The present invention provides engineered DNase proteins (including DNase1-like 3 and DNase1) that are useful for treating conditions characterized by neutrophil extracellular trap (NET) accumulation and/or release. In some aspects, the invention provides compositions and methods for preventing or treating vascular occlusion involving NETs. As demonstrated herein, NETs participate in a non-canonical mechanism for vascular occlusion, which is not dependent on fibrin or platelets.

Abstract: The present invention provides engineered DNase proteins (including DNase1-like 3 and DNase1) that are useful for treating conditions characterized by neutrophil extracellular trap (NET) accumulation and/or release. In some aspects, the invention provides compositions and methods for preventing or treating vascular occlusion involving NETs. As demonstrated herein, NETs participate in a non-canonical mechanism for vascular occlusion, which is not dependent on fibrin or platelets.

Abstract: The present disclosure relates to an assay that measures the level of factor Xa inhibitors in a sample by detecting residual factor Xa activity. In particular, the assay utilizes a mutant variant of prothrombin that lacks proteolytic activity; a prothrombinase complex mixture; and a thrombin-specific inhibitor and measures the factor Xa activity.

Abstract: Provided herein are compositions and methods for producing recombinant milk proteins, as well as food compositions comprising the same. In aspects, the recombinant milk proteins of the disclosure are recombinant fusion proteins comprising casein and beta-lactoglobulin.

Abstract: The invention relates to mutant forms of CsgG. The invention also related to analyte detection and characterisation using CsgG.

Abstract: A engineered alpha-galactosidase A polypeptide comprising SEQ ID NO: 1 having at least one non-glycosylation mutation; and at least one glycosylation compensatory mutation is claimed.

Abstract: The application discloses multimeric assemblies including multiple oligomeric substructures, where each oligomeric substructure includes multiple proteins that self-interact around at least one axis of rotational symmetry, where each protein includes one or more polypeptide-polypeptide interface (“O interface”); and one or more polypeptide domain that is capable of effecting membrane scission and release of an enveloped multimeric assembly from a cell by recruiting the ESCRT machinery to the site of budding by binding to one or more proteins in the eukaryotic ESCRT complex (“L domain”); and where the multimeric assembly includes one or more subunits comprising one or more polypeptide domain that is capable of interacting with a lipid bilayer (“M domain”), as well as membrane-enveloped versions of the multimeric assemblies.