Patent application number | Description | Published |
20080299644 | E.Coli Mutant Containing Mutant Genes Related with Tryptophan Biosynthesis and Production Method of Tryptophan by Using the Same - The present invention relates to a Tryptophan-producing | 12-04-2008 |
20080318278 | Ammonia-Specific 5'-Xmp Aminase Mutant - Disclosed herein are ammonia-specific 5′-XMP aminase mutants and a method for preparing the same. A mutation is introduced into the active site of glutamine-dependent catalysis in 5′-XMP aminase. The resulting 5′-XMP aminase mutant is devoid of the glutamine-dependent activity and specifically reacts with external ammonia in converting 5′-XMP into 5′-GMP. Thus, the ammonia-specific 5′-XMP aminase mutant is stabler within cells compared to the wild type, and can be useful in the industrial conversion of 5′-XMP into 5′-GMP. | 12-25-2008 |
20090093030 | fadR KNOCK-OUT MICROORGANISM AND METHODS FOR PRODUCING L-THREONINE - The present invention relates to an L-threonine-producing chromosomal fadR gene knock-out microorganism. The present invention further relates to a method for producing L-threonine using a fadR knock-out microorganism. Mutated microorganisms of the present invention are capable of increased L-threonine production. | 04-09-2009 |
20090130792 | Method of fabricating image sensor - A method of fabricating an image sensor includes forming a photoelectric transformation device on a substrate and forming a dielectric layer structure on the substrate. The dielectric layer structure includes multi-layer interlayer dielectric layers and multi-layer metal interconnections which are located between the multi-layer interlayer dielectric layers. A cavity which penetrates the multi-layer interlayer dielectric layers on the photoelectric transformation device is formed. A heat treatment is performed on the substrate on which the cavity is formed. | 05-21-2009 |
20090311757 | Method for Producing L-Arginine Using Corynebacterium Glutamicum - Disclosed herein are a microorganism producing L-arginine and a method of producing L-arginine using the same. The microorganism is a mutant strain of the genus | 12-17-2009 |
20090325243 | Method for producing amino acids using glycerol - The present invention relates to an amino acid-producing microorganism capable of simultaneously utilizing glycerol as a carbon source, a method for preparing the microorganism, and a method for producing amino acids using the microorganism. According to the present invention, amino acids can be efficiently produced using a byproduct of biodiesel production, glycerol, thereby substituting a cheaper material for the conventional fermentation materials such as glucose. | 12-31-2009 |
20100015673 | Microorganism Of Corynebacterium Genus Having Enhanced L-Lysine Productivity And A Method Of Producing L-Lysine Using The Same - The present invention relates to a microorganism of | 01-21-2010 |
20100028956 | GENETICALLY ENGINEERED RECOMBINANT ESCHERICHIA COLI PRODUCING L-TRYPTOPHAN HAVING ORIGINALLY L-PHENYLALANINE PRODUCTIVITY, AND METHOD FOR PRODUCING L-TRYPTOPHAN USING THE MICROORGANISM - The present invention relates to a microorganism having L-tryptophan productivity and a method for producing L-tryptophan using the same. More precisely, the present invention relates to the recombinant | 02-04-2010 |
20100028957 | Microorganism Of Corynebacterium Genus Having Enhanced L-Lysine Productivity And A Method Of Producing L-Lysine Using The Same - The present invention relates to a microorganism of | 02-04-2010 |
20100047900 | Novel l-Lysine-inducible promoter - Disclosed is a novel L-lysine-inducible promoter nucleic acid molecule. Also disclosed are a vector containing the nucleic acid molecule, a host cell transformed with the vector, and a method of inducing expression of a target gene using the L-lysine-inducible promoter nucleic acid molecule. | 02-25-2010 |
20100062498 | POLYPEPTIDE BEING CAPABLE OF INCREASING THE PRODUCTION OF L-METHIONINE, A MICROORGANISM THAT OVEREXPRESSES SAID POLYPEPTIDE AND A PROCESS OF PREPARING L-METHIONINE IN HIGH YIELD USING SAME - The present invention relates to a polypeptide capable of increasing the production of L-methionine in a microorganism. In particular, the present invention relates to an YgaZ and YgaH polypeptide or a complex thereof, referred to herein as YgaZH polypeptide, which are novel putative L-methionine exporters, polynucleotides encoding the same, a recombinant vector comprising the polynucleotide, a microorganism transformed with the recombinant vector, and a method for producing L-methionine and/or S-adenosyl-methionine, comprising the steps of culturing the transformed microorganism to produce L-methionine and/or S-adenosyl-methionine, and isolating L-methionine and/or S-adenosyl-methionine. The transformed microorganism of the present invention produces L-methionine in a high yield, thereby being used for medicinal and pharmaceutical industries and feed industry, in particular, animal feeds | 03-11-2010 |
20100081173 | Microorganism Producing Inosine and Method of Producing Inosine Using the Same - The present invention relates to a microorganism producing inosine, which is one of purine nucleoside, an important material for 5′-inosinic acid synthesis, and method for producing inosine using the same. More particularly, the present invention relates to a recombinant microorganism of | 04-01-2010 |
20100184164 | Microorganism Producing L-Methionine Precursor And Method Of Producing L-Methionine And Organic Acid From The L-Methionine Precursor - The present invention relates to a method for producing L-methionine and organic acid comprising the following steps: Step 1) preparing a strain producing L-methionine precursor and producing L-methionine precursor by the fermentation of the strain; Step 2) producing L-methionine and organic acid by the enzyme reaction process with the L-methionine precursor as a substrate, and microorganism strains used in each step. | 07-22-2010 |
20110027840 | MICROORGANISM PRODUCING GLUTAMIC ACID IN HIGH YIELD AND A PROCESS OF PRODUCING GLUTAMIC ACID USING THE SAME - Disclosed herein are mutant strains, KCCM-10784P and KCCM-10785P, which are obtained through gene manipulation of | 02-03-2011 |
20110151664 | METHOD OF MANUFACTURING MULTI-LEVEL METAL THIN FILM AND APPARATUS FOR MANUFACTURING THE SAME - Provided are methods and apparatuses for manufacturing a multilayer metal thin film without additional heat treatment processes. The method of manufacturing a multilayer metal thin film including steps of: (a) forming a first metal layer on a substrate by flowing a first metal precursor into a first reaction container; and (b) forming a second metal layer on the first metal layer by flowing a second metal precursor into a second reaction container, wherein the step (b) is performed in a range of a heat treatment temperature of the first metal layer so that the second metal layer is formed as the first metal layer is heat-treated. | 06-23-2011 |
20110318783 | Microorganism Producing Inosine and Method of Producing Inosine Using the Same - The present invention relates to a microorganism producing inosine, which is one of purine nucleoside, an important material for 5′-inosinic acid synthesis, and method for producing inosine using the same. More particularly, the present invention relates to a recombinant microorganism of | 12-29-2011 |
20120276639 | GENETICALLY ENGINEERED RECOMBINANT ESCHERICHIA COLI PRODUCING L-TRYPTOPHAN HAVING ORIGINALLY L-PHENYLALANINE PRODUCTIVITY, AND METHOD FOR PRODUCING L-TRYPTOPHAN USING THE MICROORGANISM - The present invention relates to a microorganism having L-tryptophan productivity and a method for producing L-tryptophan using the same. More precisely, the present invention relates to the recombinant | 11-01-2012 |
20130231503 | Microorganism producing L-methionine precursor and method of producing L-methionine and organic acid from the L-methionine precursor - The present invention relates to a method for producing L-methionine, comprising: i) culturing an L-methionine precursor-producing microorganism strain in a fermentation solution, so that the L-methionine precursor accumulates in the solution; and ii) mixing a converting enzyme and methylmercaptan or its salts with at least a portion of the solution to convert the accumulated L-methionine precursor into L-methionine, as well as to microorganism strains used in each step. | 09-05-2013 |