摘要:
The present invention is directed to N-acetyl-D-glucosamine obtained from microbial biomass, and to methods of obtaining N-acetyl-D-glucosamine from microbial biomass. In particular, the present invention is directed to the use of fungal biomass to create N-acetyl-D-glucosamine. The N-acetyl-D-glucosamine is efficiently obtained at high purity by degrading chitin in the fungal biomass to create N-acetyl-D-glucosamine.
摘要:
Libraries are synthesized with oligomeric carbopeptoids and carbonucleotoids. Carbopeptoids are oligosaccharides having carbohydrate subunits linked to one another by amide bonds. Carbonucleotoids are oligosaccharides having carbohydrate subunits linked to one another by phosphodiester bonds. Carbopeptoid libraries may be fabricated using automated polypeptide synthesizers. Carbonucleotoid libraries may be fabricated using automated polynucleotide synthesizers.
摘要:
Libraries are synthesized with oligomeric carbopeptoids and carbonucleotoids. Carbopeptides are oligosaccharides having carbohydrate subunits linked to one another by amide bonds. Carbonucleotoids are oligosaccharides having carbohydrate subunits linked to one another by phosphodiester bonds. Carbopeptide libraries may be fabricated using automated polypeptide synthesizers.
摘要:
Disclosed herein is a process for preparing highly pure acarbose of formula (I) useful as medicine for the treatment of diabetes. The disclosed process comprises prepurifying an acarbose-containing solution using a synthetic adsorbent to produce a prepurified acarbose having an acarbose content of a predetermined level or more; and contacting the prepurified acarbose with a monodispersed, strongly acid cation exchanger, in one step, to absorb acarbose.
摘要:
The invention provides methods and compositions for measuring ion concentration inside a cell by measuring fluorescence of a compound of the general formula I. In particular embodiments, the measured ion is halide, particularly iodide, the cell contains a functional anion transport protein or channel, the method measures a change in fluorescence as a function of a predetermined condition such as the presence of a predetermined amount of a candidate modulator of ion transport in the cell (e.g. for drug screening) or the expression by the cell of a transgene (e.g. to assess the efficacy of gene therapy).