Abstract: Trehalose-based hydrogels and methods of making such hydrogels are disclosed. Specifically, a method of creating a trehalose-based hydrogel, comprising the steps of: a) forming a trehalose homopolymer or co-polymer; b) preparing a cross-linker; and c) reacting the trehalose homopolymer or co-polymer with the cross-linker to form the trehalose-based hydrogel.

Abstract: A heparin mimicking polymer, its conjugate with bFGF, and method of making and using the same are disclosed. In particular, described herein are conjugates of biologic agents (e.g., bFGF) and heparin mimicking polymers having superior stability while retaining full native activity after a variety of stressors.

Abstract: The invention relates to compositions of vault complexes for use as delivery agents for hydrophobic and/or aqueous insoluble therapeutic compounds. In one aspect, provided herein is a vault complex comprising a modified major vault protein (MVP), wherein the modified major vault protein comprises a fusion peptide, wherein said fusion peptide is fused to the N-terminus of the major vault protein, and wherein said peptide provides enhanced sequestering of a hydrophobic and/or aqueous insoluble therapeutic compound within the vault complex.

Abstract: A method of creating a hydrogel, comprising the step of condensing first and second functional groups, wherein the first group comprises a molecule or macromolecule of interest containing two or more hydroxylamine or aminooxy groups and the second group comprises a molecule or macromolecule of interest containing two or more aldehyde/ketone/other reactive oxo groups, under conditions such that a hydrogel forms.

Abstract: Compositions and methods for stabilizing biomolecules are disclosed. Specifically, the compositions include novel homopolymers or copolymers containing trehalose side chains conjugated to biomolecules. When such homopolymers or copolymers are placed in close proximity to biomolecules, such as proteins, the homopolymers or copolymers protect and/or stabilize the biomolecule. The compositions and methods may be suitable for use in various industries such as healthcare (pharmaceuticals), molecular biology, biofuels, paper, personal care, detergent, photographic, rubber, brewing, dairy and food processing industries.

Abstract: A heparin mimicking polymer, its conjugate with bFGF, and method of making and using the same are disclosed. In particular, described herein are conjugates of biologic agents (e.g., bFGF) and heparin mimicking polymers having superior stability while retaining full native activity after a variety of stressors.

Abstract: Chemical polymerization procedures initiated by, and proceeding from, a biomolecule, particularly a protein, for the formation of biomolecule-polymer conjugates, particularly protein-polymer conjugates, which have therapeutic uses, are intermediates for forming other materials or are usable in diagnostic sensors are disclosed. Polymerization can be initiated by a protein in the absence of additional initiation agents to form the protein-polymer conjugate. Alternatively, polymerization is initiated in the presence of an additional initiation agent that does not interact with the protein. Amino acids existing in the protein can serve as the sites for initiation of the polymerization or the protein can be modified to contain site(s) for initiation or protein with active sites can be prepared by recombinant methods, chemical ligation, solid-phase synthesis, or other techniques to generate site(s) for initiation.

Abstract: The application describes ligands for binding targets, the ligands preferably including peptides having at least one sulfated or sulfonated amino acid. The ligand preferably specifically binds to heparin binding sites of biomolecules. Compositions, systems, and methods for making and using the ligands are described.

Abstract: The application describes ligands for binding targets, the ligands preferably including peptides having at least one sulfated or sulfonated amino acid. The ligand preferably specifically binds to heparin binding sites of biomolecules. Compositions, systems, and methods for making and using the ligands are described.

Abstract: Functionalized cyclic olefins and methods for making the same are disclosed. Methods include template-directed ring-closing metathesis (“RCM”) of functionalized acyclic dienes and template-directed depolymerization of functionalized polymers possessing regularly spaced sties of unsaturation. Although the template species may be any anion, cation, or dipolar compound, cationic species, especially alkali metals, are preferred. Functionalized polymers with regularly spaced sites of unsaturation and methods for making the same are also disclosed. One method for synthesizing these polymers is by ring-opening metathesis polymerization (“ROMP”) of functionalized cyclic olefins.

Abstract: The present invention generally relates to the discovery that the solubility of metal complexes may be readily manipulated by the addition of one or more solubility-enhancing compounds. This manipulation of the solubilities allows for the preparation of suitable samples for precise quantitative analysis and for the facile purification of the desired products from the reaction mixture containing one or more metal complexes. In one embodiment of the invention, the relative solubilities between two solutions are manipulated so as cause the metal complex found in a first solution to transfer to a second solution that is generally immiscible with the first solution. The metal complex is thus separated from the reaction mixture which comprises the first solution by the removal of the second solution.

Abstract: Functionalized cyclic olefins and methods for making the same are disclosed. Methods include template-directed ring-closing metathesis ("RCM") of functionalized acyclic dienes and template-directed depolymerization of functionalized polymers possessing regularly spaced sites of unsaturation. Although the template species may be any anion, cation, or dipolar compound, cationic species, especially alkali metals, are preferred. Functionalized polymers with regularly spaced sites of unsaturation and methods for making the same are also disclosed. One method for synthesizing these polymers is by ring-opening metathesis polymerization ("ROMP") of functionalized cyclic olefins. The metathesis catalysts for both RCM and ROMP reaction are ruthenium or osmium carbene complex catalysts of the formula ##STR1## where M is Os or Ru; R and R.sup.1 each may be hydrogen, C.sub.2 -C.sub.20 alkenyl, C.sub.2 -C.sub.20 alkynyl, C.sub.1 -C.sub.20 alkyl, aryl, C.sub.1 -C.sub.20 carboxylate, C.sub.1 -C.sub.20 alkoxy, C.sub.2 -C.sub.