We describe Bioconductor infrastructure for representing and computing on annotated genomic ranges and integrating genomic data with the statistical computing features of R and its extensions. At the core of the infrastructure are three packages: IRanges, GenomicRanges, and GenomicFeatures. These packages provide scalable data structures for representing annotated ranges on the genome, with special support for transcript structures, read alignments and coverage vectors. Computational facilities include efficient algorithms for overlap and nearest neighbor detection, coverage calculation and other range operations. This infrastructure directly supports more than 80 other Bioconductor packages, including those for sequence analysis, different...
The accurate identification and description of the genes in the human and mouse genomes is a fundame...
New sequencing technologies have accelerated research on prokaryotic genomes and have made genome se...
Abstract Background Next-generation sequencing is mak...
We describe Bioconductor infrastructure for representing and computing on annotated genomic ranges a...
Summary: Biological insights can be obtained through computational integration of genomics data sets...
Background: Modern genomic technologies produce large amounts of data that can be mapped to specific...
About this book * Cutting-edge genome analysis methods from leading bioinformaticians An accurate de...
Background: Disease-specific genetic information has been increasing at rapid rates as a consequence...
The immense increase in availability of genomic scale datasets, such as those provided by the ENCODE...
This article is part of the supplement: Beyond the Genome: The true gene count, human evolution and ...
Sequenceannotation is essential for genomics-based research. Investigators of a specific genomic reg...
The amount of available genomic data, produced by genome sequencing projects, increases more and mor...
Background DNA sequences are pivotal for a wide array of research in biology. Large sequence databas...
Abstract Background Gene annotation is a pivotal component in computational genomics, encompassing p...
The advantages that new technological advancements in genomics and bioinformatics provide are numero...
The accurate identification and description of the genes in the human and mouse genomes is a fundame...
New sequencing technologies have accelerated research on prokaryotic genomes and have made genome se...
Abstract Background Next-generation sequencing is mak...
We describe Bioconductor infrastructure for representing and computing on annotated genomic ranges a...
Summary: Biological insights can be obtained through computational integration of genomics data sets...
Background: Modern genomic technologies produce large amounts of data that can be mapped to specific...
About this book * Cutting-edge genome analysis methods from leading bioinformaticians An accurate de...
Background: Disease-specific genetic information has been increasing at rapid rates as a consequence...
The immense increase in availability of genomic scale datasets, such as those provided by the ENCODE...
This article is part of the supplement: Beyond the Genome: The true gene count, human evolution and ...
Sequenceannotation is essential for genomics-based research. Investigators of a specific genomic reg...
The amount of available genomic data, produced by genome sequencing projects, increases more and mor...
Background DNA sequences are pivotal for a wide array of research in biology. Large sequence databas...
Abstract Background Gene annotation is a pivotal component in computational genomics, encompassing p...
The advantages that new technological advancements in genomics and bioinformatics provide are numero...
The accurate identification and description of the genes in the human and mouse genomes is a fundame...
New sequencing technologies have accelerated research on prokaryotic genomes and have made genome se...
Abstract Background Next-generation sequencing is mak...