| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 204157680 | Carbohydrate or protein product produced | 9 |
| 20090071817 | Selective resonance of chemical structures - Chemical compositions may be selectively or preferentially excited by the application of scores comprising a series of energy inputs. | 03-19-2009 |
| 20090211893 | Photo-Activatable Amino Acids - This invention relates to an amino acid based on a naturally occurring non-polar, non-aromatic α-amino acid, wherein said amino acid differs from the naturally occurring counterpart in that the side chain contains a diazirine ring. Furthermore provided are methods of synthesizing a (poly)peptide with one or more amino acids of the invention incorporated, methods for cross-linking interacting molecules, methods of synthesizing the amino acids of the invention, and a kit comprising the amino acids of the invention. | 08-27-2009 |
| 20100025227 | CHEMICAL SYNTHESIS COMPRISING HEAT TREATMENT BY INTERMITTENT DIELECTRIC HEATING COMBINED WITH A RECYCLING SYSTEM - This invention relates to the design of a process by intermittent dielectric heating combined with a recycling system. | 02-04-2010 |
| 20100044210 | METHOD OF DIGESTING CELLULOSE TO GLUCOSE USING SALTS AND MICROWAVE (muWAVE) ENERGY - A method for digesting biomass carbohydrate polymers is disclosed. The method includes irradiating the polymers in an acid/salt solution in the presence of a microwave energy field, where the acid, salt and microwave energy are sufficient to convert a desired amount of the polymers into useful platform chemicals. | 02-25-2010 |
| 20100108490 | MOLECULAR AND BIOMOLECULAR FUNCTIONALIZATION OF METAL OXIDES - Disclosed herein are methods for functionalizing metal oxides, including tin dioxide. The methods comprise contacting at least one linker precursor comprising a first functional group to a metal oxide and exposing the linker precursor to UV light. The first functional group covalently binds to the metal oxide via a UV light induced reaction. The linker precursor may be an alkene having a vinyl group or an alkyne having an ethynyl group. Other molecules, such as biomolecules and dye molecules, may be bound to the linker precursors. The functionalized metal oxides may be used alone or as coatings on a substrate and find use in a variety of devices, including biosensors and dye sensitized solar cells. | 05-06-2010 |
| 20120055780 | POLYSACCHARIDE PSEUDO-SPONGE - A photocrosslinked polysaccharide pseudo-sponge exhibiting a low swelling property and a high degradation ability in vivo while retaining a suitable strength. The polysaccharide pseudo-sponge is produced by a crosslinking reaction of a photoreactive polysaccharide obtained by introducing a photoreactive group into a polysaccharide, and exhibits a low swelling property and a blue dextran-low dyeaffinity. | 03-08-2012 |
| 20140054163 | METHODS FOR REACTING CYSTEINE RESIDUES IN PEPTIDES AND PROTEINS - Methods for labeling or modifying cysteine residues in proteins and/or enzymes are disclosed. The methods include the reaction of an o-naphthoquinone methide with a thiol group of a cysteine residue of a protein or enzyme, which can be reversible in preferred embodiments. The o-naphthoquinone methide can conveniently be generated by irradiation of a precursor compound, preferably in an aqueous solution, suspension, or dispersion. | 02-27-2014 |
| 20150306220 | CONTROLLING THE ACTIVITY OF GROWTH FACTORS, PARTICULARLY TGF-BETA, IN VIVO - TGF-β growth factor and its latent complex are conjugated to magnetic micro- or nanoparticles and to magnetic micro- or nanodiscs. By exposing the resulting conjugates to magnetic fields, the TGF-β growth factor can be released from its latent complex in vivo, potentially making it useful in tissue engineering and regenerative medicine. And by exposing a conjugate of TGF-β growth factor and a magnetic particle to a sufficiently strong, radiofrequency magnetic field, the TGF-β growth factor can be denatured and thereby deactivated, potentially making it possible to avoid triggering tumorigenesis, atherosclerosis, fibrotic disease, and cancer. | 10-29-2015 |
| 20160008783 | PHOTOCATALYTIC DEGRADATION OF SUGAR | 01-14-2016 |
