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https://sourceforge.net/projects/popbam/
A tool to perform evolutionary or population-based analyses of next-generation sequencing data. POPBAM takes a BAM file as its input and can compute many widely used evolutionary genetics measures in sliding windows across a genome.
Proper citation: POPBAM (RRID:SCR_000464) Copy
http://drfast.sourceforge.net/
A software which maps di-base reads (SOLiD color space reads) to reference genome assemblies in a fast and memory-efficient manner.
Proper citation: drFAST (RRID:SCR_000586) Copy
http://sourceforge.net/projects/gmcloser/
Software that fills and closes the gaps present in scaffold assemblies, especially those generated by the de novo assembly of whole genomes with next-generation sequencing (NGS) reads. Unlike other gap-closing tools that use only NGS reads, GMcloser uses preassembled contig sets or long read sets as the sequences to close gaps and uses paired-end (PE) reads and a likelihood-based algorithm to improve the accuracy and efficiency of gap closure. The efficiency of gap closure can be increased by successive treatments with different contig sets.
Proper citation: GMcloser (RRID:SCR_000646) Copy
http://sourceforge.net/projects/detecttd/
Software tool to detect tandem duplications in sequencing reads. It is written in Python and requires NCBI Blast standalone.
Proper citation: detecttd (RRID:SCR_000681) Copy
http://sourceforge.net/projects/fastuniq/
A software tool for removal of de novo duplicates in paired short DNA sequences.
Proper citation: FastUniq (RRID:SCR_000682) Copy
http://sourceforge.net/projects/triagetools/
A collection of tools for partitioning raw data (fastq reads) from high-throughput sequencing projects. The tools are designed for basic data management as well for prioritizing analysis of certain subsets.
Proper citation: TriageTools (RRID:SCR_000675) Copy
http://sourceforge.net/projects/hlaseq/
An open-source software tool for accurate genotyping the human HLA genes from Illumina GA high-throughput sequencing data.
Proper citation: HLASeq (RRID:SCR_004185) Copy
http://sourceforge.net/projects/vanator-cvr/
A Perl pipeline utilising a large variety of common alignment, assembly and analysis tools to assess the metagenomic profiles of Illumina deep sequencing samples. The emphasis is on the discovery of novel viruses in clinical and environmental samples.
Proper citation: Vanator (RRID:SCR_004370) Copy
http://compbio.cs.sfu.ca/software-variation-hunter
A software tool for discovery of structural variation in one or more individuals simultaneously using high throughput technologies.
Proper citation: VariationHunter (RRID:SCR_004865) Copy
http://pythia.sourceforge.net/
Pythia is an open source thermodynamically oriented primer design python module. Pythia can be used in two ways. 1. Executable binaries only: under windows with cygwin and python 2.5 (built with mingw, that comes with the cygwin release). These executables allow the user to index DNA files for primer specificity search, design one primer pair per region, and tile regions with PCR amplicons. 2. A python module: under windows with cygwin, python2.5, numpy, swig, and mingw, or under linux with python2.4 or later, numpy, and swig (everything but numpy should be pre-installed on a normal linux system). The module gets you everything that the binaries get you, in a more pythonic framework. This package also includes modules for computing DNA binding and folding energies using the partition function approach with publicly available thermodynamic data. Usage documentation is in the downloads.
Proper citation: Pythia (RRID:SCR_004952) Copy
http://cortexassembler.sourceforge.net/index_cortex_var.html
A tool for genome assembly and variation analysis from sequence data. You can use it to discover and genotype variants on single or multiple haploid or diploid samples. If you have multiple samples, you can use Cortex to look specifically for variants that distinguish one set of samples (eg phenotype=X, cases, parents, tumour) from another set of samples (eg phenotype=Y, controls, child, normal). cortex_var features * Variant discovery by de novo assembly - no reference genome required * Supports multicoloured de Bruijn graphs - have multiple samples loaded into the same graph in different colours, and find variants that distinguish them. * Capable of calling SNPs, indels, inversions, complex variants, small haplotypes * Extremely accurate variant calling - see our paper for base-pair-resolution validation of entire alleles (rather than just breakpoints) of SNPs, indels and complex variants by comparison with fully sequenced (and finished) fosmids - a level of validation beyond that demanded of any other variant caller we are aware of - currently cortex_var is the most accurate variant caller for indels and complex variants. * Capable of aligning a reference genome to a graph and using that to call variants * Support for comparing cases/controls or phenotyped strains * Typical memory use: 1 high coverage human in under 80Gb of RAM, 1000 yeasts in under 64Gb RAM, 10 humans in under 256 Gb RAM
Proper citation: cortex var (RRID:SCR_005081) Copy
A fast and versatile Open Source docking software program that can be used to dock small molecules against proteins and nucleic acids.
Proper citation: rDock (RRID:SCR_002838) Copy
http://sourceforge.net/projects/fas-dpd/
Software program to design degenerate primers for PCR.
Proper citation: FAS-DPD (RRID:SCR_003068) Copy
http://sourceforge.net/projects/salt1/
Software that can accurately and sensitivity classify short reads of next-generation sequencing (NGS) into protein domain families. It is based on profile HMM and a supervised graph contribution algorithm. Compared to existing tools, it has high sensitivity and specificity in classifying short reads into their native domain families.
Proper citation: SALT (RRID:SCR_003187) Copy
http://sourceforge.net/projects/xorro-overlap/
Efficient paired-read overlap software program for use with Illumina sequencing.
Proper citation: XORRO (RRID:SCR_003181) Copy
http://compbio.cs.sfu.ca/software-novelseq
Software pipeline to detect novel sequence insertions using high throughput paired-end whole genome sequencing data.
Proper citation: NovelSeq (RRID:SCR_003136) Copy
http://mrcanavar.sourceforge.net/
Copy number caller that analyzes the whole-genome next-generation sequence mapping read depth to discover large segmental duplications and deletions. It also has the capability of predicting absolute copy numbers of genomic intervals.
Proper citation: mrCaNaVaR (RRID:SCR_003135) Copy
http://sourceforge.net/projects/saskprimerfs/
Software pipeline for designing gene family specific PCR primers. It infers intronic regions of a target species and design for them by utilizing DNA sequence information from a reference organism.
Proper citation: SaskPrimerFS (RRID:SCR_003159) Copy
http://niftilib.sourceforge.net
Niftilib is a set of i/o libraries for reading and writing files in the nifti-1 data format. nifti-1 is a binary file format for storing medical image data, e.g. magnetic resonance image (MRI) and functional MRI (fMRI) brain images. Niftilib currently has C, Java, MATLAB, and Python libraries; we plan to add some MATLAB/mex interfaces to the C library in the not too distant future. Niftilib has been developed by members of the NIFTI DFWG and volunteers in the neuroimaging community and serves as a reference implementation of the nifti-1 file format. In addition to being a reference implementation, we hope it is also a useful i/o library. Niftilib code is released into the public domain, developers are encouraged to incorporate niftilib code into their applications, and, to contribute changes and enhancements to niftilib. Please contact us if you would like to contribute additonal functionality to the i/o library.
Proper citation: Niftilib (RRID:SCR_003355) Copy
http://purl.bioontology.org/ontology/MMO
An ontology designed to represent the variety of methods used to make qualitative and quantitative clinical and phenotype measurements both in the clinic and with model organisms.
Proper citation: Measurement Method Ontology (RRID:SCR_003373) Copy
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