Patent application number | Description | Published |
20090036323 | STRATEGIES FOR HIGH THROUGHPUT IDENTIFICATION AND DETECTION OF POLYMORPHISMS - The invention relates to a method for the high throughput identification of single nucleotide polymorphisms by performing a complexity reduction on two or more samples to yield two or more libraries, sequencing at least part of the libraries, aligning the identified sequences and determining any putative single nucleotide polymorphisms, confirming any putative single nucleotide polymorphism, generating detection probes for the confirmed single nucleotide polymorphisms, subjection a test sample to the same complexity reduction to provide a test library and screen the test library for the presence or absence of the single nucleotide polymorphisms using the detection probe. | 02-05-2009 |
20090142758 | STRATEGIES FOR SEQUENCING COMPLEX GENOMES USING HIGH THROUGHPUT SEQUENCING TECHNOLOGIES - A method for determining a genome sequence comprising the steps of digesting the genome with at least one first restriction endonuclease, ligating at least one adaptor to the restriction fragments of the first subset, selectively amplifying the first set of adaptor-ligated restriction fragments using a first primer combination wherein at least a first primer contains a first selected sequence at the 3′ end of the primer sequence, comprising 1-10 selective nucleotides, repeating these steps with at least a second primer combinations wherein the primer contains a different second selected sequence, fragmenting each of the subsets of amplified adaptor-ligated restriction fragments to generate sequencing libraries, determine the nucleotide sequence of the fragments, aligning the sequence of the fragments in each of the libraries to generate contigs, repeating these steps for one second and/or further restriction endonucleases, aligning the contigs obtained for each of the second and/or further restriction endonucleases to provide for a sequence of the genome. | 06-04-2009 |
20090170713 | HIGH THROUGHPUT SCREENING OF MUTAGENIZED POPULATIONS - Efficient methods are disclosed for the high throughput identification of mutations in genes in members of mutagenized populations. The methods comprise DNA isolation, pooling, amplification, creation of libraries, high throughput sequencing of libraries, preferably by sequencing-by-synthesis technologies, identification of mutations and identification of the member of the population carrying the mutation and identification of the mutation. | 07-02-2009 |
20090208943 | Method for the High Throughput Screening of Transposon Tagging Populations and Massive Parallel Sequence Identification of Insertion Sites - Method for the identification of a gene in a transposon population, comprising isolating genomic DNA, optionally pooling the DNA, restrict the DNA in the pools using an enzyme, ligate adaptors, amplifying the adaptor-ligated fragments with primers, one of which is a primer complementary to a border of a transposon sequence, high throughput sequencing of the fragments, aligning the fragments with known sequences in a database and thereby identifying gene candidates. | 08-20-2009 |
20090215633 | HIGH THROUGHPUT SEQUENCE-BASED DETECTION OF SNPS USING LIGATION ASSAYS - Method for the detection the presence or absence of one or more target sequences in one or more samples based on oligonucleotide ligation assays with a variety of ligatable probes containing identifiers and the subsequent identification of the identifiers in the amplicons or ligated probes using high throughput sequencing technologies. | 08-27-2009 |
20090246780 | HIGH THROUGHPUT PHYSICAL MAPPING USING AFLP - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular markers. | 10-01-2009 |
20090247415 | STRATEGIES FOR TRRANSCRIPT PROFILING USING HIGH THROUGHPUT SEQUENCING TECHNOLOGIES - Described is a method for determining a nucleotide sequence within cDNA, the frequency of a nucleotide sequence in a cDNA sample, as well as a method for (unbiased) determination of relative transcript levels of genes without sequence information of these genes being required, said methods using complexity reduction and (high throughput) sequencing. | 10-01-2009 |
20090253581 | High Throughput Detection of Molecular Markers Based on AFLP and High Throughput Sequencing - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular markers. | 10-08-2009 |
20090269749 | METHOD FOR HIGH-THROUGHPUT AFLP-BASED POLYMORPHISM DETECTION - The invention relates to a method for the high throughput discovery, detection and genotyping of one or more genetic markers in one or more samples, comprising the steps of restriction endonuclease digest of DNA, adaptor-ligation, optional pre-amplification, selective amplification, pooling of the amplified products, sequencing the libraries with sufficient redundancy, clustering followed by identification of the genetic markers within the library and/or between libraries and determination of (co-) dominant genotypes of the genetic markers. | 10-29-2009 |
20120108442 | METHOD FOR THE IDENTIFICATION OF THE CLONAL SOURCE OF A RESTRICTION FRAGMENT - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular markers. | 05-03-2012 |
20120135871 | HIGH THROUGHPUT DETECTION OF MOLECULAR MARKERS BASED ON AFLP AND HIGH THROUGH-PUT SEQUENCING - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular marker. | 05-31-2012 |
20120202698 | HIGH THROUGHPUT DETECTION OF MOLECULAR MARKERS BASED ON AFLP AND HIGH THROUGH-PUT SEQUENCING - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular marker. | 08-09-2012 |
20120309633 | HIGH THROUGHPUT SCREENING OF MUTAGENIZED POPULATIONS - Efficient methods are disclosed for the high throughput identification of mutations in genes in members of mutagenized populations. The methods comprise DNA isolation, pooling, amplification, creation of libraries, high throughput sequencing of libraries, preferably by sequencing-by-synthesis technologies, identification of mutations and identification of the member of the population carrying the mutation and identification of the mutation. | 12-06-2012 |
20120316073 | STRATEGIES FOR HIGH THROUGHPUT IDENTIFICATION AND DETECTION OF POLYMORPHISMS - The invention relates to a method for the high throughput identification of single nucleotide polymorphisms by performing a complexity reduction on two or more samples to yield two or more libraries, sequencing at least part of the libraries, aligning the identified sequences and determining any putative single nucleotide polymorphisms, confirming any putative single nucleotide polymorphism, generating detection probes for the confirmed single nucleotide polymorphisms, subjection a test sample to the same complexity reduction to provide a test library and screen the test library for the presence or absence of the single nucleotide polymorphisms using the detection probe. | 12-13-2012 |
20130059739 | METHOD FOR HIGH-THROUGHPUT AFLP-BASED POLYMORPHISM DETECTION - The invention relates to a method for the high throughput discovery, detection and genotyping of one or more genetic markers in one or more samples, comprising the steps of restriction endonuclease digest of DNA, adaptor-ligation, optional pre-amplification, selective amplification, pooling of the amplified products, sequencing the libraries with sufficient redundancy, clustering followed by identification of the genetic markers within the library and/or between libraries and determination of (co-)dominant genotypes of the genetic markers. | 03-07-2013 |
20130184166 | METHOD FOR THE IDENTIFICATION OF THE CLONAL SOURCE OF A RESTRICTION FRAGMENT - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular markers. | 07-18-2013 |
20130196859 | NOVEL GENOME SEQUENCING STRATEGIES - The invention relates to a method for the determination of a genome sequence comprising the steps of providing a physical map of a sample genome by sequencing fragment ends of pooled BAC clones; providing a set of sequence reads from a sample genome generating a contig of the physical map and the sequence reads. | 08-01-2013 |
20140080716 | HIGH THROUGHPUT SCREENING OF MUTAGENIZED POPULATIONS - Efficient methods are disclosed for the high throughput identification of mutations in genes in members of mutagenized populations. The methods comprise DNA isolation, pooling, amplification, creation of libraries, high throughput sequencing of libraries, preferably by sequencing-by-synthesis technologies, identification of mutations and identification of the member of the population carrying the mutation and identification of the mutation. | 03-20-2014 |
20140206551 | METHOD FOR THE IDENTIFICATION OF THE CLONAL SOURCE OF A RESTRICTION FRAGMENT - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular markers. | 07-24-2014 |
20140213462 | STRATEGIES FOR HIGH THROUGHPUT IDENTIFICATION AND DETECTION OF POLYMORPHISMS - The invention relates to a method for the high throughput identification of single nucleotide polymorphisms by performing a complexity reduction on two or more samples to yield two or more libraries, sequencing at least part of the libraries, aligning the identified sequences and determining any putative single nucleotide polymorphisms, confirming any putative single nucleotide polymorphism, generating detection probes for the confirmed single nucleotide polymorphisms, subjection a test sample to the same complexity reduction to provide a test library and screen the test library for the presence or absence of the single nucleotide polymorphisms using the detection probe. | 07-31-2014 |
20140274744 | STRATEGIES FOR HIGH THROUGHPUT IDENTIFICATION AND DETECTION OF POLYMORPHISMS - The invention relates to a method for the high throughput identification of single nucleotide polymorphisms by performing a complexity reduction on two or more samples to yield two or more libraries, sequencing at least part of the libraries, aligning the identified sequences and determining any putative single nucleotide polymorphisms, confirming any putative single nucleotide polymorphism, generating detection probes for the confirmed single nucleotide polymorphisms, subjection a test sample to the same complexity reduction to provide a test library and screen the test library for the presence or absence of the single nucleotide polymorphisms using the detection probe. | 09-18-2014 |
20140295428 | METHOD FOR HIGH-THROUGHPUT AFLP-BASED POLYMORPHISM DETECTION - The invention relates to a method for the high throughput discovery, detection and genotyping of one or more genetic markers in one or more samples, comprising the steps of restriction endonuclease digest of DNA, adaptor-ligation, optional pre-amplification, selective amplification, pooling of the amplified products, sequencing the libraries with sufficient redundancy, clustering followed by identification of the genetic markers within the library and/or between libraries and determination of (co-)dominant genotypes of the genetic markers. | 10-02-2014 |
20140303007 | HIGH THROUGHPUT DETECTION OF MOLECULAR MARKERS BASED ON AFLP AND HIGH THROUGH-PUT SEQUENCING - The present invention relates to a high throughput method for the identification and detection of molecular markers wherein restriction fragments are generated and suitable adaptors comprising (sample-specific) identifiers are ligated. The adapter-ligated restriction fragments may be selectively amplified with adaptor compatible primers carrying selective nucleotides at their 3′ end. The amplified adapter-ligated restriction fragments are, at least partly, sequenced using high throughput sequencing methods and the sequence parts of the restriction fragments together with the sample-specific identifiers serve as molecular marker. | 10-09-2014 |
20140315728 | METHOD FOR HIGH-THROUGHPUT AFLP-BASED POLYMORPHISM DETECTION - The invention relates to a method for the high throughput discovery, detection and genotyping of one or more genetic markers in one or more samples, comprising the steps of restriction endonuclease digest of DNA, adaptor-ligation, optional pre-amplification, selective amplification, pooling of the amplified products, sequencing the libraries with sufficient redundancy, clustering followed by identification of the genetic markers within the library and/or between libraries and determination of (co-)dominant genotypes of the genetic markers. | 10-23-2014 |