Patents Assigned to Complete Genomics AS
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Patent number: 9679103Abstract: Haplotypes of one or more portions of a chromosome of an organism from sequencing information of DNA or RNA fragments can be determined. Heterozygous loci (hets) can be used to determine haplotypes. One allele on a first het can be connected (likely to be on the same haplotype) to an allele on a second het, thereby defining a particular orientation between the hets. Haplotypes can be assembled through these connections. Errors can be identified through redundant connection information, particularly using a confidence value (strength) for a particular connection. The connections among a set of hets can be analyzed to determine likely haplotypes for that set, e.g., an optimal tree of a graph containing the hets. Furthermore, haplotypes of different contiguous sections (contig) of the chromosome can be matched to a particular chromosome copy (e.g., to a particular parental copy). Thus, the phase of an entire chromosome can be determined.Type: GrantFiled: August 22, 2012Date of Patent: June 13, 2017Assignee: Complete Genomics, Inc.Inventors: Bahram Ghaffarzadeh Kermani, Radoje Drmanac
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Patent number: 9671344Abstract: An array chip useful for biochemical assays is provided wherein the chip includes a field region arranged with attachment sites according to a first pitch and at least one track region having a one-dimensional spot pattern arranged according to a second pitch that is less dense and is a non-integer multiple of the first pitch so that one-dimensional Moiré averaging may be applied in the track region, thereby to attain alignment of the chip to the optical instrumentation with a higher density of attachment sites.Type: GrantFiled: August 30, 2011Date of Patent: June 6, 2017Assignee: Complete Genomics, Inc.Inventor: Bryan P. Staker
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Publication number: 20170152554Abstract: A high density DNA array comprising a patterned surface, said surface comprising a pattern of small DNA binding regions separated by a non-DNA binding surface, wherein the DNA binding regions comprise DNA capture chemistry and the non-DNA binding surface does not have the DNA capture chemistry wherein more than 50% of the DNA binding regions in the array have single informative DNA species.Type: ApplicationFiled: February 6, 2017Publication date: June 1, 2017Applicant: Complete Genomics, Inc.Inventors: RADOJE DRMANAC, Matthew Callow, Snezana Drmanac, Brian K. Hauser, George Yeung
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Patent number: 9650673Abstract: Random arrays of single molecules are provided for carrying out large scale analyzes, particularly of biomolecules, such as genomic DNA, cDNAs, proteins, and the like. In one aspect, arrays of the invention comprise concatemers of DNA fragments that are randomly disposed on a regular array of discrete spaced apart regions, such that substantially all such regions contain no more than a single concatemer. Preferably, such regions have areas substantially less than 1 ?m2 and have nearest neighbor distances that permit optical resolution of on the order of 109 single molecules per cm2. Many analytical chemistries can be applied to random arrays of the invention, including sequencing by hybridization chemistries, sequencing by synthesis chemistries, SNP detection chemistries, and the like, to greatly expand the scale and potential applications of such techniques.Type: GrantFiled: May 15, 2015Date of Patent: May 16, 2017Assignee: Complete Genomics, Inc.Inventors: Radoje Drmanac, Matthew J. Callow, Snezana Drmanac, Brian K. Hauser, George Yeung
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Publication number: 20170120213Abstract: The present invention is directed to methods and compositions for long fragment read sequencing. The present invention encompasses methods and compositions for preparing long fragments of genomic DNA, for processing genomic DNA for long fragment read sequencing methods, as well as software and algorithms for processing and analyzing sequence data.Type: ApplicationFiled: October 10, 2016Publication date: May 4, 2017Applicant: Complete Genomics, Inc.Inventors: Radoje Drmanac, Brock A. Peters, Andrei Alexeev, Peter Hong
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Patent number: 9637784Abstract: The invention provides methods and kits for ordering sequence information derived from one or more target polynucleotides. In one aspect, one or more tiers or levels of fragmentation and aliquoting are generated, after which sequence information is obtained from fragments in a final level or tier. Each fragment in such final tier is from a particular aliquot, which, in turn, is from a particular aliquot of a prior tier, and so on. For every fragment of an aliquot in the final tier, the aliquots from which it was derived at every prior tier is known, or can be discerned. Thus, identical sequences from overlapping fragments from different aliquots can be distinguished and grouped as being derived from the same or different fragments from prior tiers. When the fragments in the final tier are sequenced, overlapping sequence regions of fragments in different aliquots are used to register the fragments so that non-overlapping regions are ordered.Type: GrantFiled: August 20, 2013Date of Patent: May 2, 2017Assignee: Complete Genomics, Inc.Inventor: Radoje Drmanac
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Patent number: 9637785Abstract: The invention provides methods and kits for ordering sequence information derived from one or more target polynucleotides. In one aspect, one or more tiers or levels of fragmentation and aliquoting are generated, after which sequence information is obtained from fragments in a final level or tier. Each fragment in such final tier is from a particular aliquot, which, in turn, is from a particular aliquot of a prior tier, and so on. For every fragment of an aliquot in the final tier, the aliquots from which it was derived at every prior tier is known, or can be discerned. Thus, identical sequences from overlapping fragments from different aliquots can be distinguished and grouped as being derived from the same or different fragments from prior tiers. When the fragments in the final tier are sequenced, overlapping sequence regions of fragments in different aliquots are used to register the fragments so that non-overlapping regions are ordered.Type: GrantFiled: August 20, 2013Date of Patent: May 2, 2017Assignee: Complete Genomics, Inc.Inventor: Radoje Drmanac
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Patent number: 9628676Abstract: An imaging system is provided wherein a positioning stage is translated with respect to an objective lens component and a scan mirror is repositioned while a two-dimensional image is made of a biochemical site on a substrate. In an example embodiment, an imaging system comprises a camera, an objective lens component, a positioning stage, and a scan mirror controllable by a servo system that synchronizes movement of the positioning stage and the tilting of the scan mirror so that the substrate image is maintained stable during imaging of the continuously moving positioning stage.Type: GrantFiled: May 31, 2013Date of Patent: April 18, 2017Assignee: Complete Genomics, Inc.Inventors: Bryan P. Staker, Craig E. Uhrich
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Publication number: 20170013220Abstract: Imaging systems are provided for high speed, high resolution imaging of biochemical materials. In an example embodiment, an imaging system comprises an objective lens component, a line generator, a digital camera, a positioning stage, and a scan mirror. The line generator generates a line of light that is scanned across a portion of a substrate that is mounted on the positioning stage. The positioning stage moves the substrate in a particular direction that is substantially normal to an optical axis of the objective lens component. The camera collects an image of the portion of the substrate through the objective lens component. The scan mirror moves in coordination with the positioning stage, while the line of light is being scanned across the portion of the substrate and the substrate is being moved in the particular direction, in order to keep the image still with respect to the camera while the image is being collected by the camera.Type: ApplicationFiled: September 23, 2016Publication date: January 12, 2017Applicant: Complete Genomics, Inc.Inventors: Bryan P. Staker, Craig E. Uhrich
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Patent number: 9524369Abstract: The present invention is directed to logic for analysis of nucleic acid sequence data that employs algorithms that lead to a substantial improvement in sequence accuracy and that can be used to phase sequence variations, e.g., in connection with the use of the long fragment read (LFR) process.Type: GrantFiled: April 13, 2012Date of Patent: December 20, 2016Assignee: Complete Genomics, Inc.Inventors: Radoje Drmanac, Brock A. Peters, Bahram Ghaffarzadeh Kermani
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Patent number: 9523125Abstract: The present invention is directed to methods and compositions for acquiring nucleotide sequence information of target sequences. In particular, the present invention provides methods and compositions for improving the efficiency of sequencing reactions by using fewer labels to distinguish between nucleotides and by detecting nucleotides at multiple detection positions in a target sequence.Type: GrantFiled: December 2, 2013Date of Patent: December 20, 2016Assignee: Complete Genomics, Inc.Inventor: Radoje Drmanac
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Patent number: 9514272Abstract: Various short reads can be grouped and identified as coming from a same long DNA fragment (e.g., by using wells with a relatively low-concentration of DNA). A histogram of the genomic coverage of a group of short reads can provide the edges of the corresponding long fragment (pulse). The knowledge of these pulses can provide an ability to determine the haploid genome and to identify structural variations.Type: GrantFiled: October 11, 2012Date of Patent: December 6, 2016Assignee: Complete Genomics, Inc.Inventors: Bahram Ghaffarzadeh Kermani, Radoje Drmanac, Oleg Alferov
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Patent number: 9499863Abstract: The present invention is directed to methods and compositions for long fragment read sequencing. The present invention encompasses methods and compositions for preparing long fragments of genomic DNA, for processing genomic DNA for long fragment read sequencing methods, as well as software and algorithms for processing and analyzing sequence data.Type: GrantFiled: September 16, 2013Date of Patent: November 22, 2016Assignee: Complete Genomics, Inc.Inventors: Radoje Drmanac, Brock A. Peters, Andrei Alexeev, Peter Hong
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Patent number: 9488823Abstract: Imaging systems are provided for high speed, high resolution imaging of biochemical materials. In an example embodiment, an imaging system comprises an objective lens component, a line generator, a digital camera, a positioning stage, and a scan mirror. The line generator generates a line of light that is scanned across a portion of a substrate that is mounted on the positioning stage. The positioning stage moves the substrate in a particular direction that is substantially normal to an optical axis of the objective lens component. The camera collects an image of the portion of the substrate through the objective lens component. The scan mirror moves in coordination with the positioning stage, while the line of light is being scanned across the portion of the substrate and the substrate is being moved in the particular direction, in order to keep the image still with respect to the camera while the image is being collected by the camera.Type: GrantFiled: June 3, 2013Date of Patent: November 8, 2016Assignee: Complete Genomics, Inc.Inventors: Bryan P. Staker, Craig E. Uhrich
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Patent number: 9476054Abstract: The present invention is directed to methods and compositions for acquiring nucleotide sequence information of target sequences using adaptors interspersed in target polynucleotides. The sequence information can be new, e.g. sequencing unknown nucleic acids, re-sequencing, or genotyping. The invention preferably includes methods for inserting a plurality of adaptors at spaced locations within a target polynucleotide or a fragment of a polynucleotide. Such adaptors may serve as platforms for interrogating adjacent sequences using various sequencing chemistries, such as those that identify nucleotides by primer extension, probe ligation, and the like. Encompassed in the invention are methods and compositions for the insertion of known adaptor sequences into target sequences, such that there is an interruption of contiguous target sequence with the adaptors. By sequencing both “upstream” and “downstream” of the adaptors, identification of entire target sequences may be accomplished.Type: GrantFiled: October 31, 2007Date of Patent: October 25, 2016Assignee: Complete Genomics, Inc.Inventors: Radoje T. Drmanac, Matthew Callow, Snezana Drmanac
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Patent number: 9382585Abstract: A scalable reaction and detection system for automated high throughput sequencing of nucleic acids involving a combination of chemical processes and observation processes independent of the chemistry processes. Discrete functional units may be configured in a manner that allows the system to interchangeably utilize different sequencing reaction components in conjunction with discrete apparatus components for optical image collection and/or analysis.Type: GrantFiled: October 30, 2008Date of Patent: July 5, 2016Assignee: Complete Genomics, Inc.Inventor: Arnold Oliphant
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Patent number: 9359641Abstract: In a genome sequencing system and methodology, a protocol is provided to achieve precise alignment and accurate registration of an image of a planar array of nanoballs subject to optical analysis. Precise alignment correcting for fractional offsets is achieved by correcting for errors in subperiod x-y offset, scale and rotation by use of minimization techniques and Moiré averaging. In Moiré averaging, magnification is intentionally set so that the pixel period of the imaging element is a noninteger multiple of the site period. Accurate registration is achieved by providing for pre-defined pseudo-random sets of sites, herein deletion or reserved sites, where nanoballs are prevented from attachment to the substrate so that the sites of the array can be used in a pattern matching scheme as registration markers for absolute location identification.Type: GrantFiled: June 19, 2014Date of Patent: June 7, 2016Assignee: COMPLETE GENOMICS, INC.Inventor: Bryan P. Staker
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Patent number: 9334490Abstract: The present invention is related generally to analysis of polynucleotides, particularly polynucleotides derived from genomic DNA. The invention provides methods, compositions and systems for such analysis. Encompassed by the invention are constructs that include pairs of target sequences which are separated by a known distance in the polynucleotide from which they are derived.Type: GrantFiled: November 9, 2007Date of Patent: May 10, 2016Assignee: COMPLETE GENOMICS, INC.Inventor: Radoje T. Drmanac
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Patent number: 9328382Abstract: This disclosure provides methods and compositions for tagging long fragments of a target nucleic acid for sequencing and analyzing the resulting sequence information in order to reduce errors and perform haplotype phasing, for example.Type: GrantFiled: March 11, 2014Date of Patent: May 3, 2016Assignee: COMPLETE GENOMICS, INC.Inventors: Radoje Drmanac, Brock A. Peters, Andrei Alexeev
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Patent number: 9285578Abstract: A method and associated system for imaging high density biochemical arrays comprises one or more imaging channels that share a common objective lens and a corresponding one or more time delay integration-type imaging cameras with optical alignment mechanisms that permit independent inter-channel and intra-channel adjustment of each of four degrees: X, Y, rotation and scale. The imaging channels are configured to independently examine different spectra of the image of the biochemical arrays.Type: GrantFiled: January 12, 2015Date of Patent: March 15, 2016Assignee: Complete Genomics, Inc.Inventors: Bryan P. Staker, Craig E. Uhrich