SEVEN BRIDGES GENOMICS INC. Patent applications |
Patent application number | Title | Published |
20150227685 | SYSTEMS AND METHODS FOR ANALYZING SEQUENCE DATA - The invention provides methods for comparing one set of genetic sequences to another without discarding any information within either set. A set of genetic sequences is represented using a directed acyclic graph (DAG) avoiding any unwarranted reduction to a linear data structure. The invention provides a way to align one sequence DAG to another to produce an alignment that can itself be stored as a DAG. DAG-to-DAG alignment is a natural choice wherever a set of genomic information consisting of more than one string needs to be compared to any non-linear reference. For example, a subpopulation DAG could be compared to a population DAG in order to compare the genetic features of that subpopulation to those of the population. | 08-13-2015 |
20150112658 | SYSTEMS AND METHODS FOR TRANSCRIPTOME ANALYSIS - The invention generally provides systems and methods for analysis of RNA-Seq reads in which an annotated reference is represented as a directed acyclic graph (DAG) or similar data structure. Features such as exons and introns from the reference provide nodes in the DAG and those features are linked as pairs in their canonical genomic order by edges. The DAG can scale to any size and can in fact be populated in the first instance by import from an extrinsic annotated reference. | 04-23-2015 |
20150112602 | SYSTEMS AND METHODS FOR USING PAIRED-END DATA IN DIRECTED ACYCLIC STRUCTURE - Methods of analyzing a transcriptome that involves obtaining at least one pair of paired-end reads from a transcriptome from an organism, finding an alignment with an optimal score between a first read of the pair and a node in a directed acyclic data structure (the data structure has nodes representing RNA sequences such as exons or transcripts and edges connecting pairs of nodes), identifying candidate paths that include the node connected to a downstream node by a path having a length substantially similar to an insert length of the pair of paired-end reads, and aligning the paired-end rends to the candidate paths to determine an optimal-scoring alignment. | 04-23-2015 |
20150066383 | COLLAPSIBLE MODULAR GENOMIC PIPELINE - The invention generally relates to tools for genomic analysis and particularly to a pipeline editor that can turn pipelines into standalone tools for use in other pipelines. The invention provides systems and methods for genomic analysis in which individual analytical tools can be arranged into analytical pipelines that can then be “collapsed” into standalone tools, which themselves can be put into the pool of individual tools for use in further building of pipelines. Aspects of the invention provide a system that includes a server computer system operable to present to a user a plurality of genomic tools, receive input from the user arranging the tools into a pipeline, create a new tool that includes the pipeline, and offer the new tool along with the plurality of genomic tools. | 03-05-2015 |
20150057946 | METHODS AND SYSTEMS FOR ALIGNING SEQUENCES - The invention includes methods for aligning reads (e.g., nucleic acid reads, amino acid reads) to a reference sequence construct, methods for building the reference sequence construct, and systems that use the alignment methods and constructs to produce sequences. The method is scalable, and can be used to align millions of reads to a construct thousands of bases or amino acids long. The invention additionally includes methods for identifying a disease or a genotype based upon alignment of nucleic acid reads to a location in the construct. | 02-26-2015 |
20150056613 | METHODS AND SYSTEMS FOR DETECTING SEQUENCE VARIANTS - The invention provides methods for identifying rare variants near a structural variation in a genetic sequence, for example, in a nucleic acid sample taken from a subject. The invention additionally includes methods for aligning reads (e.g., nucleic acid reads) to a reference sequence construct accounting for the structural variation, methods for building a reference sequence construct accounting for the structural variation or the structural variation and the rare variant, and systems that use the alignment methods to identify rare variants. The method is scalable, and can be used to align millions of reads to a construct thousands of bases long, or longer. | 02-26-2015 |