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http://code.google.com/p/hydra-sv/
Software that detects structural variation (SV) breakpoints by clustering discordant paired-end alignments whose signatures corroborate the same putative breakpoint. Hydra can detect breakpoints caused by all classes of structural variation. Moreover, it was designed to detect variation in both unique and duplicated genomic regions; therefore, it will examine paired-end reads having multiple discordant alignments. Hydra does not attempt to classify SV breakpoints based on the mapping distances and orientations of each breakpoint cluster, it merely detects and reports breakpoints. This is an intentional decision, as it was observed that in loci affected by complex rearrangements, the type of variant suggested by the breakpoint signature is not always correct. Hydra does report the orientations, distances, number of supporting read-pairs, etc., for each breakpoint. It is suggested that downstream methods be used to classify variants based on the genomic features that they overlap and the co-occurrence of other breakpoints. For example, they developed BEDTools for exactly this purpose and the breakpoints reported by Hydra are in the BEDPE format used by BEDTools. Future releases of Hydra will include scripts that assist in the classification process.
Proper citation: Hydra (RRID:SCR_005260) Copy
https://code.google.com/p/mirpara/
A SVM (support vector machine-based software tool for prediction of most probable microRNA coding regions in genome scale sequences.
Proper citation: MiRPara (RRID:SCR_005294) Copy
https://github.com/songlab/chance
A standalone software package for ChIP-seq quality control and protocol optimization.
Proper citation: CHANCE (RRID:SCR_005330) Copy
Software using a probabalistic framework for determining the likelihood of an assembly given the data (raw reads) used to assemble it. It allows for the rapid discovery of errors and comparisons between similar assemblies.
Proper citation: Assembly Likelihood Estimator (RRID:SCR_005326) Copy
http://users-birc.au.dk/biopv/php/fabox/
Tools for splitting, joining and otherwise manipulating FASTA format sequence files. The first tools in the toolbox is for manipulating fasta headers, cropping alignments and doing some sequence comparison allowing users to combine the description of data (often in excel spreadsheets) with the actual data (often DNA sequences). Also, producing correct input files for a range of programs seems to be problematic for the average user. Hence, some converters in some of the services have been included as well as some stand-alone converters. The converters are not necessarily meant to provide the final input file, but you''ll get a valid input file for Arlequin, MrBayes etc. - that you may further edit so it suit your needs. This means that you may need to combine several of the tools to finish your handling - but it keeps it relatively simple to use. Please note that FaBox is written in PHP and ONLY RUNS ON A WEBSERVER.
Proper citation: FaBox (RRID:SCR_005350) Copy
http://info.gersteinlab.org/PeakSeq
A software program for identifying and ranking peak regions in ChIP-Seq experiments. It takes as input, mapped reads from a ChIP-Seq experiment, mapped reads from a control experiment and outputs a file with peak regions ranked with increasing Q-values.
Proper citation: PeakSeq (RRID:SCR_005349) Copy
http://arrowsmith.psych.uic.edu/cgi-bin/arrowsmith_uic/AnneOTate.cgi
A web based search tool to help you gain an overview of the set of articles (up to 25,000 most recent articles) retrieved by a PubMed query. Once you enter a query, you can select different types of summary information to view: Important words, Topics, Authors, Affiliations, Journals, Year, Clustered by topic.
Proper citation: Anne O'Tate (RRID:SCR_005340) Copy
Java software for studying protein-DNA interaction using ChIP-seq / ChIP-exo data. It links binding event discovery and motif discovery with positional priors in the context of a generative probabilistic model of ChIP data and genome sequence, resolves ChIP data into explanatory motifs and binding events at unsurpassed spatial resolution. GEM reciprocally improves motif discovery using binding event locations, and binding event predictions using discovered motifs.
Proper citation: GEM (RRID:SCR_005339) Copy
http://www.bioconductor.org/packages/devel/bioc/html/deepSNV.html
Software package that provides quantitative variant callers for detecting subclonal mutations in ultra-deep (>=100x coverage) sequencing experiments. The algorithm is used for a comparative setup with a control experiment of the same loci and uses a beta-binomial model and a likelihood ratio test to discriminate sequencing errors and subclonal SNVs (single nucleotide variants).
Proper citation: deepSNV (RRID:SCR_006214) Copy
https://github.com/RGLab/pepStat
Software for statistical analysis of peptide microarrays. It uses an integrated analytical method for analyzing peptide microarray antibody binding data, from normalization through subject-specific positivity calls and data integration and visualization.
Proper citation: pepStat (RRID:SCR_006240) Copy
http://pathogenseq.lshtm.ac.uk/estmoi
A per-based software to estimate multiplicity of infection (MOI) in parasite genomic sequence data. It is primarily developed to address the limitations of current laboratory (PCR) based estimates of multiplicity using high throughput sequence data. It requires a BAM (alignment output of short reads to the reference genome), VCF (a file with information on variant calls) and FASTA (reference genome) files. # Short reads are aligned to a reference genome using BWA, BOWTIE, SMALT or other short read aligners to generate a BAM file. # Single Nucleotide Polymorphisms (SNPs) are then identified using SAMTools/BCFtools and stored in the VCF format. # The reference FASTA file is expected to be indexed using ''samtools faidx'' to generate a *.fai file. estMOI generates files containing MOI estimates for each SNP combinations (file with name *.log) and a summary for all chromosomes (file with name *.txt).
Proper citation: estMOI (RRID:SCR_006192) Copy
http://megasun.bch.umontreal.ca/People/lartillot/www/
A Bayesian Monte Carlo Markov Chain (MCMC) sampler software for phylogenetic reconstruction. Its main distinguishing feature is the underlying probabilistic model, CAT (Lartillot and Philippe, 2004). CAT is an infinite mixture model accounting for site-specific amino-acid or nucleotide preferences. It is well suited to phylogenomic studies using large multigene alignments.
Proper citation: PhyloBayes (RRID:SCR_006402) Copy
http://snps.ccbr.utoronto.ca:8080/SNPdryad/
Service to predict deleterious non-synonymous human Single Nucleotide Polymorphisms (SNPs) using only orthologous protein sequences.
Proper citation: SNPdryad (RRID:SCR_006414) Copy
http://cran.r-project.org/web/packages/QCGWAS/
Software tools for (automated and manual) quality control of the results of Genome Wide Association Studies.
Proper citation: QCGWAS (RRID:SCR_006408) Copy
A free program for multiple sequence alignment editing, visualisation and analysis that is available in two forms: a lightweight Java applet for use in web applications, and a powerful desktop application that employs web services for sequence alignment, secondary structure prediction and the retrieval of alignments, sequences, annotation and structures from public databases and any DAS 1.53 compliant sequence or annotation server. Use it to view and edit sequence alignments, analyse them with phylogenetic trees and principal components analysis (PCA) plots and explore molecular structures and annotation. Jalview has built in DNA, RNA and protein sequence and structure visualisation and analysis capabilities. It uses Jmol to view 3D structures, and VARNA to display RNA secondary structure.
Proper citation: Jalview (RRID:SCR_006459) Copy
http://www.bioconductor.org/packages/release/bioc/html/SRAdb.html
Software package to make access to the compilation of metadata from NCBI SRA and tools associated with submission, study, sample, experiment and run much more feasible. This is accomplished by parsing all the NCBI SRA metadata into a SQLite database that can be stored and queried locally. Fulltext search in the package make querying metadata very flexible and powerful. fastq and sra files can be downloaded for doing alignment locally. Beside ftp protocol, the SRAdb has funcitons supporting fastp protocol (ascp from Aspera Connect) for faster downloading large data files over long distance. The SQLite database is updated regularly as new data is added to SRA and can be downloaded at will for the most up-to-date metadata.
Proper citation: SRAdb (RRID:SCR_006524) Copy
http://bioinf.comav.upv.es/seq_crumbs/
A collection of small sequence processing utilities that are modeled after the Unix command line text processing utilities so every utility tries to perform a specific task and most of them take a sequence file as input and create a new processed sequence file as output. This design encourages the assembly of the seq_crumbs utilities with Unix pipes to create complex pipelines.
Proper citation: seq crumbs (RRID:SCR_006486) Copy
http://www.bioconductor.org/packages/release/bioc/html/MethylSeekR.html
A software package for the discovery of regulatory regions from Bis-seq data.
Proper citation: MethylSeekR (RRID:SCR_006513) Copy
http://bioconductor.org/packages/release/bioc/html/casper.html
Software to infer alternative splicing from paired-end RNA-seq data. The model is based on counting paths across exons, rather than pairwise exon connections, and estimates the fragment size and start distributions non-parametrically, which improves estimation precision.
Proper citation: casper (RRID:SCR_006613) Copy
http://rulai.cshl.edu/splicetrap/
A statistic tool for quantifying exon inclusion ratios in paired-end RNA-seq data, with broad applications for the study of alternative splicing. SpliceTrap approaches to exon inclusion level estimation as a Bayesian inference problem. For every exon it quantifies the extent to which it is included, skipped or subjected to size variations due to alternative 3?/5? splice sites or Intron Retention. In addition, SpliceTrap can quantify alternative splicing within a single cellular condition, with no need of a background set of reads.
Proper citation: SpliceTrap (RRID:SCR_006728) Copy
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