Provided is a novel method whereby an amide compound can be produced by highly stereoselectively and efficiently performing amidation between a plurality of amino acids and/or peptides. A compound of general formula (3) is synthesized by forming an amide bond between the carboxyl group on the right side of general formula (1) in a compound represented thereby and the amino group on the left side of general formula (2) in a compound represented thereby, in the presence of a Lewis acid catalyst and a silylating agent [in formulae (1), (2) and (3), each symbol has the same meaning as defined in claims

The present invention relates to insulin analogues and processes of making such insulin analogues by direct conversion of a free amine to an azide via diazo-transfer with an azotransfer agent.

The present invention is broadly concerned with new in vitro glycosylation methods that provide rational approaches for producing glycosylated proteins, and the use of glycosylated proteins. In more detail, the present invention comprises methods of glycosylating a starting protein having an amino sidechain with a nucleophilic moiety, comprising the step of reacting the protein with a carbohydrate having an oxazoline moiety on the reducing end thereof, to covalently bond the amino sidechain of the starting protein with the oxazoline moiety, wherein the glycosylated protein substantially retains the structure and function of the starting protein. Target proteins include oxidase, oxidoreductase and dehydrogenase enzymes. The glycosylated proteins advantageously have molecular weights of at least about 7500 Daltons. In a further embodiment, the present invention concerns the use of glycosylated proteins, fabricated by the methods disclosed herein, in the assembly of amperometric biosensors.

A method of isolating and separating a target macromolecule, such DNA (double stranded or single stranded), RNA (double stranded or single stranded), messenger RNA, or other oligonucleotide or oligonucleoside, from a sample by binding the target macromolecule to an affinity ligand that is bound to a surface is disclosed. The method may be employed in chromatography or any other of the separation sciences.

A solvent system for solid phase peptide synthesis is disclosed that combines a morpholine-based compound and an alkoxybenzene-based compound to form a solvent that can be compatible with both polystyrene and/or PEG resins and that can produce purity yields at least comparable to conventional solvents such as DMF, DMA, and/or NMP.

Fentanyl is an addictive prescription opioid that is over 80 times mora potent than morphine. The synthetic nature of fentanyl has enabled the creation of dangerous “designer drug’ analogues that escape toxicology screening, yet display comparable potency to the parent drug. Alarmingly, a large number of fatalities have been linked to overdose of fentanyl derivatives. Herein, we report an effective immunotherapy for reducing the psychoactive effects of fentanyl class drugs. A single conjugate vaccine was created that elicited high levels of antibodies with cross-reactivity for a wide panel of fentanyl analogues, Moreover, vaccinated mice gained significant protection from lethal fentanyl doses. Lastly, a surface plasmon resonance (SPR)-based technique was established enabling drug specificity profiling of antibodies derived directly from serum. Our newly developed fentanyl vaccine and analytical methods may assist in the battle against synthetic opioid abuse.

One embodiment of the present invention is a protein having affinity for an immunoglobulin, which is a protein having two or more domains derived from any of the amino acid sequences of E, D, and A domains of protein A, and in the amino acid sequence of at least one of the domains, one or more lysines are included, and the C-terminal lysine is deleted or substituted, or a protein having affinity for an immunoglobulin, which is a protein having two or more domains derived from any of B, C, and Z domains of protein A, and in the amino acid sequence of at least one of the domains, one or more lysines are included, and lysine at position 4 and the C-terminal lysine are deleted or substituted.

A method for producing an amide includes: dehydrating and condensing carboxylic acids and then reacting them with a base, and reacting them with an amine.

A process for increasing protein yield from biomass (beans, oilseeds, cereals, nuts, rice, soybeans, bran, etc.), as well as, for reducing the amount of chemical and biological reagents used in the process, involves application of multiple hydrodynamic cavitation treatments of a biomass suspension or other combination of biomass with solvents and reagentsin the preparation, extraction, and processing or the biomass and proteins. The biomass suspension is preferably subjected to at least three cavitation treatments in order to facilitate the crushing of biomass, splitting of fibers, and rupture of cell membranes, thereby increasing the mass transfer surface area and intensifying the extraction of protein and lipids. At the stage of washing and neutralization the protein solution may be subjected to a fourth cavitation treatment to obtain the purified protein.

A novel method of treating and preventing bacterial diseases is provided. In particular, the present invention relates to compositions and methods for inhibition of Gram negative, Gram positive and acid fast bacilli in general and tuberculosis (TB), Mycobacterium avium complex (MAC), and anthrax in particular. Thus, the invention relates to modulation of cellular activities, including macrophage activity, and the like. More particularly, the present invention relates to the inhibitory compounds comprising naturally occurring and man-made inhibitors of serine protease.