Patent application number | Description | Published |
20100267024 | MUTATIONS IN THE MACROPHAGE SCAVENGER RECEPTOR 1 GENE ALTER RISK OF PROSTATE CANCER, ASTHMA, AND CARDIOVASCULAR DISEASE - The present invention discloses methods of screening a subject for increased likelihood or risk of certain diseases or disorders. This method comprises detecting the presence or absence of at least one mutation in the MSR1 gene wherein the presence or absence of such mutation indicates an increased risk for certain diseases, such as cancer asthma and/or cardiovascular diseases. | 10-21-2010 |
20100330566 | GENETIC POLYMORPHISMS IN THE PROSTATE-SPECIFIC ANTIGEN GENE PROMOTER - The present invention includes methods of identifying a subject at risk for increased cellular PSA production and/or prostate cancer by detecting the presence or absence of a genetic polymorphism in the prostate specific antigen gene. | 12-30-2010 |
20120003647 | GENETIC POLYMORPHISMS IN THE PROSTATE-SPECIFIC ANTIGEN GENE PROMOTER - The present invention includes methods of identifying a subject at risk for increased cellular PSA production and/or prostate cancer by detecting the presence or absence of a genetic polymorphism in the prostate specific antigen gene. | 01-05-2012 |
20120178082 | METHODS AND COMPOSITIONS FOR CORRELATING GENETIC MARKERS WITH RISK OF AGGRESSIVE PROSTATE CANCER - The present invention provides a method of identifying a subject as having an increased risk of having or developing aggressive prostate cancer, comprising detecting in the subject the presence of various polymorphisms associated with an increased risk of having or developing aggressive prostate cancer. | 07-12-2012 |
20140057795 | Methods and Compositions for Correlating Genetic Markers with Prostate Cancer Risk - The present invention provides methods of assessing an individual subject's risk of developing prostate cancer, comprising: a) analyzing a nucleic acid sample obtained from the subject and determining a genotype for the subject at a plurality of biallelic polymorphic loci, wherein each of said plurality has an associated allele and an unassociated allele, wherein the genotype is selected from the group consisting of homozygous for the associated allele, heterozygous, and homozygous for the unassociated allele; and b) calculating a cumulative relative risk (CRR) for the subject based on the genotype determined in step (a). A CRR of greater than 1.00 identifies a subject as having an increased risk of developing prostate cancer and also can identify a subject who is a candidate for early PSA screening, prostate biopsy and/or chemoprevention. | 02-27-2014 |
20150031032 | Methods and Compositions for Determining Indication for Prostate Biopsy - The present invention provides a method of identifying a subject for whom a prostate biopsy is indicated, comprising: a) determining, from a nucleic acid sample obtained from the subject, a genotype for the subject at a plurality of biallelic polymorphic loci, wherein each of said plurality has an associated allele and an unassociated allele, wherein the genotype is selected from the group consisting of homozygous for the associated allele, heterozygous, and homozygous for the unassociated allele; b) calculating a genetic risk score (GRS) for the subject based on the genotype determined in step (a); and c) analyzing the GRS of the subject in combination with a prostate specific antigen (PSA) level of the subject to identify a prostate cancer detection rate for the subject, whereby a prostate cancer detection rate of greater than or equal to a reference value identifies the subject as a subject for whom a prostate biopsy is indicated. | 01-29-2015 |
20160024591 | METHODS AND COMPOSITIONS FOR CORRELATING GENETIC MARKERS WITH RISK OF AGGRESSIVE PROSTATE CANCER - The present invention provides a method of identifying a subject as having an increased risk of having or developing aggressive prostate cancer, comprising detecting in the subject the presence of various genetic markers associated with an increased risk of having or developing aggressive prostate cancer. | 01-28-2016 |
Patent application number | Description | Published |
20100290538 | VIDEO CONTENTS GENERATION DEVICE AND COMPUTER PROGRAM THEREFOR - A video contents generation device generates video contents smoothly connecting a series of poses of a human skeleton in conformity with the music with the reduced amount of calculation. The video contents generation device is constituted of a motion analysis unit detecting motion features from motion data representing motion segments of poses, a database storing motion data in connection with subclassification (e.g. genres and tempos), a music analysis unit detecting music features from music data representing the music subjected to the video contents generating procedure, a synchronization unit generating the synchronization information for establishing the correspondence between motion data and music data based on motion features suited to music features, and a video data generation unit generating video data synchronized with music data based on the synchronization information. | 11-18-2010 |
20120086855 | VIDEO CONTENT GENERATION SYSTEM, VIDEO CONTENT GENERATION DEVICE, AND STORAGE MEDIA - A video content generation device generates video data synchronized with music data based on motion data, representing a motion graph including nodes, edges, and weights, and metadata indicating a synchronization probability per each node between the motion graph and a musical tune. A music data storage unit stores the predetermined amount of music data and their musical characteristics in connection with the predetermined number of beats, in a reproduction order, retrieved from the musical tune. An optimum path search unit searches an optimum path connecting between nodes, each of which is selected per each beat with a high synchronization probability, on the motion graph with motion characteristics matching with musical characteristics based on the predetermined amount of music data. Video data synchronized with music data is generated based on synchronization information for correlating motion data to music data along with the optimum path. | 04-12-2012 |
Patent application number | Description | Published |
20080242834 | Methods of Predicting Hyp-Glycosylation Sites For Proteins Expressed and Secreted in Plant Cells, and Related Methods and Products - Proteins with Hyp-glycosylation are more likely to be secreted in plant cells at high levels than those without. Methods are disclosed for the prediction of Pro-hydroxylation and Hyp-glycosylationsites in proteins. Such methods can be used to identify (1) proteins which, without modification, are predisposed to develop Hyp-glycosylation, if expressed in plant cells, and (2) modifications (especially substitution mutations) which increase the propensity of a protein to develop Hyp-glycosylation, with a view to high level or increased secretion. It is also possible to determine empirically whether a particular protein will undergo Hyp-glycosylation suitable for the desired level of secretion in plant cells. Both modified proteins, and methods for the expression and secretion of predisposed and modified proteins, are claimed. | 10-02-2008 |
20100028993 | METHODS OF PRODUCING PEPTIDES IN PLANTS AND PEPTIDES PRODUCED THEREBY - Methods of increasing the yield in plant expression of recombinant proteins comprising engineering glycosylation sites into cloned genes or cDNAs for proteins using codons that drive post-translational modifications in plants and engineering the cloned genes or cDNAs to contain a plant secretory signal sequence that targets the gene products (protein) for secretion are present. The methods result in increased recombinant glycosylated protein yields. Proteins produced according to these methods are also present. | 02-04-2010 |
20100029548 | GLYCOPROTEINS PRODUCED IN PLANTS AND METHODS OF THEIR USE - Methods of increasing the yield in plant expression of recombinant proteins comprising: engineering glycosylation sites into cloned genes or cDNAs for proteins using codons that drive post-translational modifications in plants; and engineering the cloned genes or cDNAs to contain a plant secretory signal sequence that targets the gene products (protein) for secretion. The methods result in increased recombinant glycosylated protein yields. Proteins produced according to these methods are disclosed. | 02-04-2010 |
20110217766 | Methods of Producing Peptides in Plants and Peptides Produced Thereby - Methods of increasing the yield in plant expression of recombinant proteins comprising engineering glycosylation sites into cloned genes or cDNAs for proteins using codons that drive post-translational modifications in plants and engineering the cloned genes or cDNAs to contain a plant secretory signal sequence that targets the gene products (protein) for secretion are present. The methods result in increased recombinant glycosylated protein yields. Proteins produced according to these methods are also present. | 09-08-2011 |
20110230404 | Glycoproteins Produced in Plants and Methods of Their Use - Methods of increasing the yield in plant expression of recombinant proteins comprising engineering glycosylation sites into cloned genes or cDNAs for proteins using codons that drive post-translational modifications in plants; and engineering the cloned genes or cDNAs to contain a plant secretory signal sequence that targets the gene products (protein) for secretion. The methods result in increased recombinant glycosylated protein yields. Proteins produced according to these methods are disclosed. | 09-22-2011 |
20140024806 | Glycoproteins Produced in Plants and Methods of Their Use - Methods of increasing the yield in plant expression of recombinant proteins comprising engineering glycosylation sites into cloned genes or cDNAs for proteins using codons that drive post-translational modifications in plants; and engineering the cloned genes or cDNAs to contain a plant secretory signal sequence that targets the gene products (protein) for secretion. The methods result in increased recombinant glycosylated protein yields. Proteins produced according to these methods are disclosed. | 01-23-2014 |
Patent application number | Description | Published |
20110313761 | METHOD FOR ENCODING SIGNAL, AND METHOD FOR DECODING SIGNAL - The present disclosure relates to a method, apparatus, and system for encoding and decoding signals. The encoding method includes: converting a first-domain signal into a second-domain signal; performing Linear Prediction (LP) processing and Long-Term Prediction (LTP) processing for the second-domain signal; obtaining a long-term flag according to decision criteria; obtaining a second-domain contribution signal according to the LP processing result and the LTP processing result when the long-term flag is a first flag; obtaining a second-domain contribution signal according to the LP processing result when the long-term flag is a second flag; converting the second-domain contribution signal into a first-domain contribution signal, and calculating a first-domain predictive residual signal; and outputting a bit stream that includes the first-domain predictive residual signal. With the present disclosure, a subsequent encoding or decoding process is performed adaptively according to the long-term flag; when the long-term flag is the second flag, it is not necessary to consider the LTP processing result, thus improving the compression performance of a codec. | 12-22-2011 |
20110320195 | METHOD, APPARATUS AND SYSTEM FOR LINEAR PREDICTION CODING ANALYSIS - The present invention relates to communication technologies and discloses a method, an apparatus and a system for Linear Prediction Coding (LPC) analysis to improve LPC prediction performance and simplify analysis operation. The method includes: obtaining signal feature information of at least one sample point of input signals; comparing and analyzing the signal feature information to obtain an analysis result; selecting a window function according to the analysis result to perform adaptive windowing for the input signals and obtain windowed signals; and processing the windowed signals to obtain an LPC coefficient for linear prediction. The embodiments of the present invention are applicable to LPC. | 12-29-2011 |
20130129096 | Audio Signal Synthesizer - The invention relates to an audio signal synthesizer, the audio signal synthesizer comprises a transformer for transforming the down-mix audio signal into frequency domain to obtain a transformed audio signal; a signal generator for generating a first auxiliary signal, for generating a second auxiliary signal, and for generating a third auxiliary signal upon the basis of the transformed audio signal; a de-correlator for generating a first de-correlated signal, and for generating a second de-correlated signal from the third auxiliary signal, the first de-correlated signal and the second de-correlated signal being at least partly de-correlated; and a combiner for combining the first auxiliary signal with the first de-correlated signal to obtain a first audio signal, and for combining the second auxiliary signal with the second de-correlated signal to obtain the second audio signal, the first audio signal and the second audio signal forming the multi-channel audio signal. | 05-23-2013 |