Fast, accurate, memory-efficient aligner for short and long sequencing reads
Burrows-Wheeler Aligner (BWA) is an efficient program that aligns relatively short nucleotide sequences against a long reference sequence such as the human genome.
BWA is a software package for mapping lo...
TopHat is a fast splice junction mapper for RNA-Seq reads.
A fast splice junction mapper for RNA-seq reads that uses bowtie (see above)
s a fast splice junction mapper for RNA-Seq reads. It aligns RNA-Seq reads to mammalian-sized genomes using the ultra high-throughput short read al...
Cufflinks assembles transcripts and estimates their abundances in RNA-Seq samples. It accepts aligned RNA-Seq reads and assembles the alignments into a parsimonious set of transcripts. Cufflinks then estimates the relative abundances of these transcripts based on how many reads support ...
标签:RNA-Seq Alignment, RNA-Seq Quantitation, Alternative Splicing, Transcriptome, RNA-Seq
ERGO provides a systems-biology informatics toolkit centered on comparative genomics to capture, query and visualize sequenced genomes. Building upon the most comprehensive genomic database available anywhere integrated with the largest collection of microbial metabolic and non-metaboli...
标签:Metabolic reconstruction,Phylogenetics, Comparative genomics, SNP Annotation, SNP discovery, Alignment, Exome analysis, Metagenomics,Pathway analysis, Comparative transcriptomics, Functional Genomics, Gene Expression Analysis, Genome Wide Association Stud
Sequence assembly software using traditional, next-gen, and third-gen techonologies. Subsequent analysis of the assembly, including SNP discovery, coverage evaluation and consensus annotation is provided through full integration with Lasergene.
标签:Genomics, De-novo assembly, De novo transcriptome assembly,Whole Genome Resequencing, SNP discovery, InDel discovery,ChIP-Seq, RNA-Seq Alignment
GSNAP can align both single-end and paired-end reads as short as 14 nt and of arbitrarily long length. It can detect short- and long-distance splicing, including interchromosomal splicing, in individual reads using probabilistic models or a database of known splice sites. Our program al...
We present a generative statistical model and associated inference methods that handle read mapping uncertainty in a principled manner. Through simulations parameterized by real RNASeq data, we show that our method is more accurate than previous methods. Our improved accuracy is the res...
Collection of software tools for for both low and high level analysis of next generation, ultra high throughput signature sequencing data from the Solexa, SOLiD, and 454 platforms. Initial emphasis: chIP-seq and RNA-Seq with FDR estimations
Detects splice junctions from RNA-seq data. This method does not depend on any existing annotation of gene structures and is capable of finding novel splice junctions with high sensitivity and specificity. It can handle long reads (50–100 nt) and can exploit paired-read information to i...
We introduce a second generation splice detection algorithm, MapSplice, whose focus is high sensitivity and specificity in the detection of splices as well as CPU and memory efficiency. MapSplice can be applied to both short (<75 bp) and long reads (75 bp). MapSplice is not dependent...
RazerS allows the user to align sequencing reads of arbitrary length using either the Hamming distance or the edit distance. The tool can work either lossless or with a user-defined loss rate at higher speeds.