Patent application number | Description | Published |
20080233621 | Method For Producing Alcohol and Carboxylic Acid Having Optical Activity - It is an object of the present invention to provide an inexpensive and efficient industrial method for obtaining (S)-2-pentanol, (S)-2-hexanol, 1-methylalkyl malonic acid and 3-methyl carboxylic acid at a high optical purity. The present invention provides a method of producing (S)-2-pentanol or (S)-2-hexanol which comprises allowing certain types of microorganisms or transformed cells, a product obtained by treating said microorganisms or cells, a culture solution of said microorganisms or cells, and/or a crude purified product or purified product of a carbonyl reductase fraction obtained from said microorganisms or cells, to act on 2-pentanone or 2-hexanone. | 09-25-2008 |
20090252271 | AXIAL VOID FRACTION DISTRIBUTION MEASUREMENT METHOD AND NEUTRON MULTIPLICATION FACTOR EVALUATING METHOD - A first intensity A | 10-08-2009 |
20110016445 | Layout design system and layout design method - In a layout design of a semiconductor circuit, by selecting a frequently-used layout cell based on a layout design, a common location (coordinate) at which dummy metal is arranged is specified. A new layout cell in which dummy metal is arranged in advance at the specified arrangement location is generated. Dummy metal is arranged by replacing the frequently-used layout cell from which the new layout cell is generated by the new layout cell having dummy metal or by overlapping them. Thus, process such as wiring correction in which the amount of data depends on processing speed can be carried out by use of the inexpensive computer having low throughputs and the small amount of memory. | 01-20-2011 |
20110080987 | MANUFACTURING METHOD OF NUCLEAR FUEL PELLET, FUEL ASSEMBLY FOR NUCLEAR REACTOR AND MANUFACTURING METHOD THEREOF AND URANIUM POWDER - Among fuel rods constituting a fuel assembly, Gd compound oxide is added to low Gd containing fuel rods that containing uranium dioxide of which enrichment exceeds 5 wt %. The Gd compound oxide is oxide of gadolinium and rare earth element A except for gadolinium and is expressed as a chemical formula A | 04-07-2011 |
20110218731 | POSITIONING TERMINAL AND SERVER - The positioning terminal of the present invention includes a positioning unit | 09-08-2011 |
20120178124 | STEROL SIDE CHAIN-CLEAVING ENZYME PROTEIN AND USE THEREOF - It is an object of the present invention to obtain highly active P450scc enzyme protein which is an important enzyme protein that catalyzes the first step of the biosynthesis of industrially useful steroid hormone. The present invention provides a sterol side chain cleavage enzyme protein having the following physicochemical properties:
| 07-12-2012 |
Patent application number | Description | Published |
20080261268 | 5-Substituted Hydantoin Racemase, Dna Encoding the Same, Recombinant Dna, Transformed Cell, and Process for Production of Optically Active N-Carbamylamino Acid or Optically Active Amino Acid - Disclosed are a novel hydantoin racemase and a process for producing an optically active N-carbamylamino acid or an optically active amino acid using the hydantoin racemase. A novel hydantoin racemase isolated and purified from | 10-23-2008 |
20090136994 | Polypeptide having amidase activity and gene thereof - It is an object of the present invention to provide a novel amidase that is useful for production of an optically active amino acid, and in particular, a D-amino acid, and a production method thereof. | 05-28-2009 |
20100028959 | METHOD FOR PRODUCTION OF L-AMINO ACID - The present invention has its object to provide a method for producing an L-amino acid comprising reacting a keto acid with an amino acid dehydrogenase and an enzyme having coenzyme regenerating ability to convert to a L-amino acid, wherein a coenzyme is added in two or more portions in the reaction. The method of the present invention enables efficient production of an L-amino acid useful as a synthetic intermediate such as a pharmaceutical intermediate with high optical purity by an enzymatic reductive amination independent of the purity of the keto acid used as a substrate. | 02-04-2010 |
20110281309 | NOVEL AMINO ACID DEHYDROGENASE, AND PROCESS FOR PRODUCING L-AMINO ACID, 2-OXO ACID OR D-AMINO ACID - The present invention relates to a novel amino acid dehydrogenase, DNA encoding the enzyme, and a transformant having the DNA introduced therein. The present invention also relates to a process for producing an L-amino acid, 2-oxo acid or D-amino acid, which includes allowing the amino acid dehydrogenase or a microorganism or transformant capable of producing the enzyme to act on a substrate compound. The amino acid dehydrogenase has good reactivity even with an amino acid or a 2-oxo acid each having a bulky side chain such as an aromatic-ring-containing group, which acids are poorly reactive with conventional amino acid dehydrogenases. The amino acid dehydrogenase enables the inexpensive and highly efficient production of a useful optically active amino acid. | 11-17-2011 |
20130149769 | NOVEL CARBONYL REDUCTASE, GENE THEREFOR AND USE THEREOF - The present invention is to provide a process for efficiently producing an optically active alcohol including (R)-3-hydroxy-3-phenylpropanenitrile. One of the features of the present invention is a polypeptide having an activity of asymmetrically reducing 3-oxo-3-phenylpropanenitrile isolated from a microorganism belonging to the genus | 06-13-2013 |
Patent application number | Description | Published |
20080270723 | Multiprocessor System and Exclusive Control Method Therefor - A multiprocessor system that can perform for a lock variable a function equivalent to an atomic read-modify-write function. When a specified CPU asserts a read signal READ, a main lock variable LOCK is read from a lock register, and a main lock variable LOCK in a locked state “1” is written to the lock register. When the main lock variable LOCK that is read is in an unlocked state “0”, the CPU can obtain a lock. Since not only the main lock variable LOCK is read, but is also the main lock variable LOCK in the locked state “1” is written, when a different CPU asserts a read signal READ immediately after this, the main lock variable LOCK in the locked state “1” is read from the lock register in the locked state “1”, so that the different CPU can not obtain a lock. | 10-30-2008 |
20080320236 | System having cache snoop interface independent of system bus interface - A system includes processor units, caches, memory shared by the processor units, a system bus interface, and a cache snoop interfaces. Each processor unit has one of the caches. The system bus interface communicatively connects the processor units to the memory via at least the caches, and is a non-cache snoop system bus interface. The cache snoop interface communicatively connects the caches, and is independent of the system bus interface. Upon a given processor unit writing a new value to an address within the memory such that the new value and the address are cached within the cache of the given processor unit a write invalidation event is sent over the cache snoop interface to the caches of the processor units other than the given processor unit. This event invalidates the address as stored within any of the caches other than the cache of the given processor unit. | 12-25-2008 |
20090106502 | Translation lookaside buffer snooping within memory coherent system - A node of a multiple-node system includes a translation lookaside buffer (TLB), a cache, and a TLB snoop mechanism. The node shares memory with other nodes of the multiple-node systems, and is connected with the other nodes via a bus. The TLB snooping mechanism snoops inbound memory access requests and/or outbound memory access requests. Inbound requests are received from over the bus and are intended for the cache. However, the cache receives only the inbound requests that relate to memory addresses having associated entries within the TLB. Outbound requests are received from within the node and are intended for transmission over the bus. However, the bus coherently transmits only the outbound requests that relate to memory addresses that are part of memory pages having set shared-memory page memory flags. All other outbound memory access requests are sent over the bus non-coherently. | 04-23-2009 |
20120137079 | CACHE COHERENCY CONTROL METHOD, SYSTEM, AND PROGRAM - In a system for controlling cache coherency of a multiprocessor system in which a plurality of processors share a system memory, each of the plurality of processors including a cache and a TLB, the processor includes a TLB controller including a TLB search unit that performs a TLB search and a coherency handler that performs TLB registration information processing when no hit occurs in the TLB search and a TLB interrupt occurs. The coherency handler includes a TLB replacement handler that searches a page table in the system memory and that replaces the TLB registration information, a TLB miss exception handling unit, and a storage exception handling unit. | 05-31-2012 |