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| Resource Name | Proper Citation | Abbreviations | Resource Type |
Description |
Keywords | Resource Relationships | |||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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deCODE genetics Resource Report Resource Website 50+ mentions |
deCODE genetics (RRID:SCR_003334) | deCODE | commercial organization | A biopharmaceutical company applying its discoveries in human genetics to develop drugs and diagnostics for common diseases. They specialize in gene discovery - their population approach and resources have enabled them to isolate key genes contributing to major public health challenges from cardiovascular disease to cancer. The company's genotyping capacity is now one of the highest in the world. They have a large population-based biobank containing whole blood and DNA samples with extensive relevant phenotypic information from around 120.000 Icelanders. In the company's work in more than 50 disease projects, their statistical and informatics departments have established themselves in data processing and analysis. deCODE genetics is widely recognized as a center of excellence in genetic research. | biopharmaceutical, genetics, drug, diagnostic, genotyping, phenotype, data processing, analysis, genetic variant, risk factor, genome, blood, dna, biobank, single nucleotide polymorphism |
is related to: EU-AIMS is related to: NEWMEDS |
Schizophrenia, Cardiovascular disease, Cancer, Type 2 diabetes, Atrial fibrillation, Heart attack | Free, Freely available | nif-0000-31959, ISNI: 0000 0004 0618 6889, grid.421812.c, Wikidata: Q493712 | https://ror.org/04dzdm737 | SCR_003334 | Islensk Erfdagreining EHF, Islensk Erfdagreining | 2026-02-07 02:05:59 | 55 | |||||
|
Parseq Resource Report Resource Website 1+ mentions |
Parseq (RRID:SCR_003464) | Parseq | software resource | Statistical software for transcription landscape reconstruction at a basepair resolution from RNA Seq read counts. It is based on a state-space model which describes, in terms of abrupt shifts and more progressive drifts, the transcription level dynamics along the genome. Alongside variations of transcription level, it incorporates a component of short-range variation to pull apart local artifacts causing correlated dispersion. Reconstruction of the transcription level relies on a conditional sequential Monte Carlo approach that is combined with parameter estimation in a Markov chain Monte Carlo algorithm known as particle Gibbs. The method allows to estimate the local transcription level, to call transcribed regions, and to identify the transcript borders. | rna-seq, genome, transcription, bio.tools |
is listed by: OMICtools is listed by: Debian is listed by: bio.tools has parent organization: Sorbonne University; Paris; France |
PMID:24470570 | Free, Available for download, Freely available | biotools:parseq, OMICS_02302 | https://bio.tools/parseq | SCR_003464 | 2026-02-07 02:06:03 | 2 | ||||||
|
PennCNV Resource Report Resource Website 100+ mentions |
PennCNV (RRID:SCR_002518) | PennCNV | software resource | A free software tool for Copy Number Variation (CNV) detection from SNP genotyping arrays. Currently it can handle signal intensity data from Illumina and Affymetrix arrays. With appropriate preparation of file format, it can also handle other types of SNP arrays and oligonucleotide arrays. PennCNV implements a hidden Markov model (HMM) that integrates multiple sources of information to infer CNV calls for individual genotyped samples. It differs form segmentation-based algorithm in that it considered SNP allelic ratio distribution as well as other factors, in addition to signal intensity alone. In addition, PennCNV can optionally utilize family information to generate family-based CNV calls by several different algorithms. Furthermore, PennCNV can generate CNV calls given a specific set of candidate CNV regions, through a validation-calling algorithm. | imaging genomics, copy number variation, snp, genotyping array, array, oligonucleotide, hidden markov model, genotype, genome |
is listed by: OMICtools is listed by: NeuroImaging Tools and Resources Collaboratory (NITRC) is related to: VegaMC is related to: OpenBioinformatics.org has parent organization: University of Pennsylvania; Philadelphia; USA |
NIMH MH604687 | PMID:17921354 | Free | OMICS_00729, nlx_155921 | http://www.openbioinformatics.org/penncnv/ |
http://www.neurogenome.org/cnv/penncnv | SCR_002518 | PennCNV: copy number variation detection | 2026-02-07 02:05:45 | 339 | |||
|
NovelSeq Resource Report Resource Website |
NovelSeq (RRID:SCR_003136) | NovelSeq | software resource | Software pipeline to detect novel sequence insertions using high throughput paired-end whole genome sequencing data. | sequence, insertion, genome sequencing, genome, next-generation sequencing, illumina, unix, linux, c, bio.tools |
is listed by: OMICtools is listed by: bio.tools is listed by: Debian is related to: SPLITREAD has parent organization: Simon Fraser University; British Columbia; Canada has parent organization: SourceForge |
PMID:20385726 | Free, Available for download, Freely available | biotools:novelseq, nlx_156791, OMICS_02164 | https://mybiosoftware.com/novelseq-1-0-2-sequence-insertions-detection.html#google_vignette | SCR_003136 | NovelSeq: Novel Sequence Insertion Detection | 2026-02-07 02:05:56 | 0 | |||||
|
mrCaNaVaR Resource Report Resource Website 10+ mentions |
mrCaNaVaR (RRID:SCR_003135) | mrCaNaVaR | software resource | 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. | genome, next-generation sequence, duplication, deletion, copy number variant, bio.tools |
is listed by: OMICtools is listed by: bio.tools is listed by: Debian is related to: SPLITREAD has parent organization: SourceForge |
Free, Freely available | OMICS_02138, nlx_156790, biotools:mrcanavar | https://bio.tools/mrcanavar | SCR_003135 | mrCaNaVaR - micro-read Copy Number Variant Regions, micro-read Copy Number Variant Regions | 2026-02-07 02:06:11 | 14 | ||||||
|
SSPACE Resource Report Resource Website 100+ mentions |
SSPACE (RRID:SCR_005056) | SSPACE | software resource | A stand-alone software program for scaffolding pre-assembled contigs using paired-read data. Main features are: a short runtime, multiple library input of paired-end and/or mate pair datasets and possible contig extension with unmapped sequence reads. | scaffolding, contig, genome, bio.tools |
is listed by: OMICtools is listed by: Debian is listed by: bio.tools |
PMID:21149342 DOI:10.1093/bioinformatics/btq683 |
GNU General Public License, Registration required | biotools:sspace, OMICS_00050 | https://bio.tools/sspace https://sources.debian.org/src/sspace/ |
SCR_005056 | 2026-02-07 02:06:37 | 421 | ||||||
|
AGORA Resource Report Resource Website 50+ mentions |
AGORA (RRID:SCR_005070) | AGORA | software resource | An algorithm to use optical map information directly within the de Bruijn graph framework to help produce an accurate assembly of a genome that is consistent with the optical map information provided. AGORA takes as input two data structures: OpMap ? an ordered list of fragment sizes representing the optical map; and Edges ? a list of de Bruijn graph edges with their corresponding sequences. | genome assembly, genome, reconstruction | is listed by: OMICtools | PMID:22856673 | OMICS_00039 | SCR_005070 | Assembly Guided by Optical Restriction Alignment | 2026-02-07 02:06:34 | 95 | |||||||
|
RetroSeq Resource Report Resource Website 10+ mentions |
RetroSeq (RRID:SCR_005133) | RetroSeq | software resource | A tool for discovery and genotyping of transposable element variants (TEVs) (also known as mobile element insertions) from next-gen sequencing reads aligned to a reference genome in BAM format. The goal is to call TEVs that are not present in the reference genome but present in the sample that has been sequenced. It should be noted that RetroSeq can be used to locate any class of viral insertion in any species where whole-genome sequencing data with a suitable reference genome is available. RetroSeq is a two phase process, the first being the read pair discovery phase where discorandant mate pairs are detected and assigned to a TE class (Alu, SINE, LINE, etc.) by using either the annotated TE elements in the reference and/or aligned with Exonerate to the supplied library of viral sequences. | mobile element insertion, next-gen sequencing, bam, transposable element, genome, sequence |
is listed by: OMICtools has parent organization: Wellcome Trust Sanger Institute; Hinxton; United Kingdom |
PMID:23233656 | Acknowledgement requested, Open unspecified license | OMICS_11232, OMICS_00120 | SCR_005133 | 2026-02-07 02:06:39 | 44 | |||||||
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VirusFinder Resource Report Resource Website 10+ mentions |
VirusFinder (RRID:SCR_005205) | VirusFinder | software resource | Software tool for efficient and accurate detection of viruses and their integration sites in host genomes through next generation sequencing data. Specifically, it detects virus infection, co-infection with multiple viruses, virus integration sites in host genomes, as well as mutations in the virus genomes. It also facilitates virus discovery by reporting novel contigs, long sequences assembled from short reads that map neither to the host genome nor to the genomes of known viruses. VirusFinder 2 works with both paired-end and single-end data, unlike the previous 1.x versions that accepted only paired-end reads. The types of NGS data that VirusFinder 2 can deal with include whole genome sequencing (WGS), whole transcriptome sequencing (RNA-Seq), targeted sequencing data such as whole exome sequencing (WES) and ultra-deep amplicon sequencing. | next-generation sequencing, virus, integration site, genome, mutation, virus genome, contig, paired-end, single-end, whole genome sequencing, whole transcriptome sequencing, rna-seq, targeted sequencing, whole exome sequencing, ultra-deep amplicon sequencing |
is listed by: OMICtools has parent organization: Vanderbilt University; Tennessee; USA |
Viral infection | PMID:23717618 | OMICS_00226 | SCR_005205 | 2026-02-07 02:07:06 | 16 | |||||||
|
NGS-SNP Resource Report Resource Website 10+ mentions |
NGS-SNP (RRID:SCR_005182) | NGS-SNP | software resource | A collection of command-line scripts for providing rich annotations for SNPs identified by the sequencing of transcripts or whole genomes from organisms with reference sequences in Ensembl. Included among the annotations, several of which are not available from any existing SNP annotation tools, are the results of detailed comparisons with orthologous sequences. These comparisons allow, for example, SNPs to be sorted or filtered based on how drastically the SNP changes the score of a protein alignment. Other fields indicate the names of overlapping protein domains or features, and the conservation of both the SNP site and flanking regions. NCBI, Ensembl, and Uniprot IDs are provided for genes, transcripts, and proteins when applicable, along with Gene Ontology terms, a gene description, phenotypes linked to the gene, and an indication of whether the SNP is novel or known. A ?Model_Annotations? field provides several annotations obtained by transferring in silico the SNP to an orthologous gene, typically in a well-characterized species. | annotation, snp, sequencing, transcript, genome, reference sequence, indel, annotate, reference chromosome, reference transcript, gene, command-line |
is listed by: OMICtools is related to: Ensembl has parent organization: University of Alberta; Alberta; Canada |
OMICS_00177 | SCR_005182 | 2026-02-07 02:07:06 | 32 | |||||||||
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Ergatis Resource Report Resource Website 1+ mentions |
Ergatis (RRID:SCR_005377) | Ergatis | software resource | A web interface and scalable software system for bioinformatics workflows that is used to create, run, and monitor reusable computational analysis pipelines. It contains pre-built components for common bioinformatics analysis tasks. These components can be arranged graphically to form highly-configurable pipelines. Each analysis component supports multiple output formats, including the Bioinformatic Sequence Markup Language (BSML). The current implementation includes support for data loading into project databases following the CHADO schema, a highly normalized, community-supported schema for storage of biological annotation data. Ergatis uses the Workflow engine to process its work on a compute grid. Workflow provides an XML language and processing engine for specifying the steps of a computational pipeline. It provides detailed execution status and logging for process auditing, facilitates error recovery from point of failure, and is highly scalable with support for distributed computing environments. The XML format employed enables commands to be run serially, in parallel, and in any combination or nesting level. | workflow, bioinformatics, workflow management, pipeline, computation, genomics, genome, processing |
is listed by: OMICtools has parent organization: SourceForge has parent organization: University of Maryland School of Medicine; Maryland; USA |
PMID:20413634 | Artistic License | OMICS_01140 | SCR_005377 | ergatis: workflow creation and monitoring interface | 2026-02-07 02:06:41 | 2 | ||||||
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CREST Resource Report Resource Website 50+ mentions |
CREST (RRID:SCR_005257) | CREST | software resource | An algorithm for detecting genomic structural variations at base-pair resolution using next-generation sequencing data. CREST uses pieces of DNA called soft clips to find structural variations. Soft clips are the DNA segments produced during sequencing that fail to properly align to the reference genome as the sample genome is reassembled. CREST uses the soft clips to precisely identify sites of chromosomal rearrangement or where pieces of DNA are inserted or deleted. | genome, structural variation, next-generation sequencing, soft clip |
is listed by: OMICtools has parent organization: Pennsylvania State University |
PMID:21666668 | OMICS_00312 | SCR_005257 | 2026-02-07 02:06:43 | 53 | ||||||||
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MolBioLib Resource Report Resource Website |
MolBioLib (RRID:SCR_005372) | MolBioLib | software resource | A compact, portable, and extensively tested C++11 software framework and set of applications tailored to the demands of next-generation sequencing data and applicable to many other applications. It is designed to work with common file formats and data types used both in genomic analysis and general data analysis. A central relational-database-like Table class is a flexible and powerful object to intuitively represent and work with a wide variety of tabular datasets, ranging from alignment data to annotations. MolBioLib includes programs to perform a wide variety of analysis tasks such as computing read coverage, annotating genomic intervals, and novel peak calling with a wavelet algorithm. This package assumes fluency in both UNIX and C++. | c++, next-generation sequencing, genomic, analysis, genome |
is listed by: OMICtools has parent organization: SourceForge |
PMID:22815363 | OMICS_01145 | SCR_005372 | MolBioLib: C++11 framework for rapid develop and deploy of bioinformatic tasks | 2026-02-07 02:07:12 | 0 | |||||||
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BioExtract Resource Report Resource Website 10+ mentions |
BioExtract (RRID:SCR_005397) | BioExtract | service resource | An open, web-based system designed to aid researchers in the analysis of genomic data by providing a platform for the creation of bioinformatic workflows. Scientific workflows are created within the system by recording tasks performed by the user. These tasks may include querying multiple, distributed data sources, saving query results as searchable data extracts, and executing local and web-accessible analytic tools. The series of recorded tasks can then be saved as a reproducible, sharable workflow available for subsequent execution with the original or modified inputs and parameter settings. Integrated data resources include interfaces to the National Center for Biotechnology Information (NCBI) nucleotide and protein databases, the European Molecular Biology Laboratory (EMBL-Bank) non-redundant nucleotide database, the Universal Protein Resource (UniProt), and the UniProt Reference Clusters (UniRef) database. The system offers access to numerous preinstalled, curated analytic tools and also provides researchers with the option of selecting computational tools from a large list of web services including the European Molecular Biology Open Software Suite (EMBOSS), BioMoby, and the Kyoto Encyclopedia of Genes and Genomes (KEGG). The system further allows users to integrate local command line tools residing on their own computers through a client-side Java applet. | nucleotide sequence, protein sequence, viridiplantae, viridiplantae protein, nucleotide, sequence, protein, viridiplantae, workflow, software, database, bioinformatics, platform, genome, genomic analysis, analytic tool |
is listed by: OMICtools is listed by: SoftCite is related to: NCBI Nucleotide is related to: NCBI Protein Database is related to: UniProt is related to: UniRef is related to: EMBOSS is related to: BioMoby is related to: KEGG has parent organization: Indiana University; Indiana; USA has parent organization: University of South Dakota; South Dakota; USA |
NSF 0090732; NSF IOS-1126481 |
PMID:21546552 PMID:20865520 PMID:20150665 PMID:20054995 |
OMICS_01138 | SCR_005397 | BioExtract Server | 2026-02-07 02:06:42 | 11 | ||||||
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SPLITREAD Resource Report Resource Website 1+ mentions |
SPLITREAD (RRID:SCR_005264) | SPLITREAD | software resource | Software for detecting INDELs (small insertions and deletion with size less than 50bp) as well as large deletions that are within the coding regions from the exome sequencing data. It also can be applied to the whole genome sequencing data. | deletion, insertion, indel, genome, exome |
is listed by: OMICtools is related to: drFAST is related to: mrFAST is related to: mrsFAST is related to: VariationHunter is related to: NovelSeq is related to: mrCaNaVaR has parent organization: SourceForge |
OMICS_00323 | SCR_005264 | SPLITREAD - Split read based INDEL/SV Caller | 2026-02-07 02:06:43 | 3 | ||||||||
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Hydra Resource Report Resource Website 100+ mentions |
Hydra (RRID:SCR_005260) | Hydra | software resource | 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. | structural variation, genome, genomic, breakpoint, c++, cnv, pem, paired-end, segmental duplication, rearrangement |
is listed by: OMICtools is listed by: SoftCite is related to: BEDTools has parent organization: Google Code has parent organization: University of Virginia; Virginia; USA |
OMICS_00318 | SCR_005260 | hydra-sv | 2026-02-07 02:06:43 | 114 | ||||||||
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GEM Resource Report Resource Website 10+ mentions |
GEM (RRID:SCR_005339) | GEM | software resource | 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. | chip-seq, chip-exo, genome, event, motif, protein-dna interaction, java, transcription factor, genome sequence, motif discovery, binding event calling |
is listed by: OMICtools has parent organization: Massachusetts Institute of Technology; Massachusetts; USA; |
PMID:22912568 | OMICS_00441 | SCR_005339 | Genome wide Event finding and Motif discovery, GEM: ChIP-Seq and ChIP-exo analysis tool | 2026-02-07 02:06:45 | 12 | |||||||
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Fulcrum Resource Report Resource Website 1+ mentions |
Fulcrum (RRID:SCR_005523) | Fulcrum | software resource | Software to collapse identical and near-identical Illumina and 454 reads (such as those from PCR clones) into single error-corrected sequences; it can process paired-end as well as single-end reads. Fulcrum is customizable and can be deployed on a single machine, a local network or a commercially available MapReduce cluster, and it has been optimized to maximize ease-of-use, cross-platform compatibility and future scalability. Sequence datasets have been collapsed by up to 71%, and the reduced number and improved quality of the resulting sequences allow assemblers to produce longer contigs while using less memory. | illumina, 454, read, paired-end read, single-end read, high-throughput sequencing, redundant read, genome, transcriptome, ultra high throughput sequencing |
is listed by: OMICtools has parent organization: Stanford University School of Medicine; California; USA |
PMID:22419786 | BSD-like license | OMICS_01049 | http://pringlelab.stanford.edu/protocols.html | SCR_005523 | Fulcrum Read Collapser | 2026-02-07 02:07:17 | 4 | |||||
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Wellcome Trust Case Control Consortium Resource Report Resource Website 100+ mentions |
Wellcome Trust Case Control Consortium (RRID:SCR_001973) | WTCCC | data or information resource | Consortium of 50 research groups across the UK to harness the power of newly-available genotyping technologies to improve our understanding of the aetiological basis of several major causes of global disease. The consortium has gathered genotype data for up to 500,000 sites of genome sequence variation (single nucleotide polymorphisms or SNPs) in samples ascertained for the disease phenotypes. Analysis of the genome-wide association data generated has lead to the identification of many SNPs and genes showing evidence of association with disease susceptibility, some of which will be followed up in future studies. In addition, the Consortium has gained important insights into the technical, analytical, methodological and biological aspects of genome-wide association analysis. The core of the study comprised an analysis of 2,000 samples from each of seven diseases (type 1 diabetes, type 2 diabetes, coronary heart disease, hypertension, bipolar disorder, rheumatoid arthritis and Crohn's disease). For each disease, the case samples have been ascertained from sites widely distributed across Great Britain, allowing us to obtain considerable efficiencies by comparing each of these case populations to a common set of 3,000 nationally-ascertained controls also from England, Scotland and Wales. These controls come from two sources: 1,500 are representative samples from the 1958 British Birth Cohort and 1,500 are blood donors recruited by the three national UK Blood Services. One of the questions that the WTCCC study has addressed relates to the relative merits of these alternative strategies for the generation of representative population cohorts. Genotyping for this main Case Control study was conducted by Affymetrix using the (commercial) Affymetrix 500K chip. As part of this study a total of 17,000 samples were typed for 500,000 SNPs. There are two additional components to the study. First, the WTCCC award is part-funding a study of host resistance to infectious diseases in African populations. The same approach has been used to type 2,000 cases of tuberculosis (TB) and 2,000 cases of malaria, as well as 2,000 shared controls. As well as addressing diseases of major global significance, and extending WTCCC coverage into the area of infectious disease, the inclusion of samples of African origin has obvious benefits with respect to methodological aspects of genome-wide association analysis. Second, the WTCCC has, for four additional diseases (autoimmune thyroid disease, breast cancer, ankylosing spondylitis, multiple sclerosis), completed an analysis of 15,000 SNPs designed to represent a large proportion of the known non-synonymous coding SNPs across the genome. This analysis has been performed at the WTSI using a custom Infinium chip (Illumina). Data release The genotypic data of the control samples (1958 British Birth Cohort and UK Blood Service) and from seven diseases analyzed in the main study are now available to qualified researchers. Summary genotype statistics for these collections are available directly from the website. Access to the individual-level genotype data and summary genotype statistics is by application to the Consortium Data Access Committee (CDAC) and approval subject to a Data Access Agreement. WTCCC2: A further round of GWA studies were funded in April 2008. These include 15 WTCCC-collaborative studies and 12 independent studies be supported totaling approximately 120,000 samples. Many of the studies represent major international collaborative networks that have together assembled large sample collections. WTCCC2 will perform genome-wide association studies in 13 disease conditions: Ankylosing spondylitis, Barrett's oesophagus and oesophageal adenocarcinoma, glaucoma, ischaemic stroke, multiple sclerosis, pre-eclampsia, Parkinson's disease, psychosis endophenotypes, psoriasis, schizophrenia, ulcerative colitis and visceral leishmaniasis. WTCCC2 will also investigate the genetics of reading and mathematics abilities in children and the pharmacogenomics of statin response. Over 60,000 samples will be analyzed using either the Affymetrix v6.0 chip or the Illumina 660K chip. The WTCCC2 will also genotype 3,000 controls each from the 1958 British Birth cohort and the UK Blood Service control group, and the 6,000 controls will be genotyped on both the Affymetrix v6.0 and Illumina 1.2M chips. WTCCC3: The Wellcome Trust has provided support for a further round of GWA studies in January 2009. These include 5 WTCCC-collaborative studies to be carried out in WTCCC3 and 5 independent studies, across a range of diseases. Many of the studies represent major international collaborative networks that have together assembled large sample collections. WTCCC3 will perform genome-wide association studies in the following 4 disease conditions: primary biliary cirrhosis, anorexia nervosa, pre-eclampsia in UK subjects, and the interactions between donor and recipient DNA related to early and late renal transplant dysfunction. The WTCCC3 will also carry out a pilot in a study of the genetics of host control of HIV-1 infection. Over 40,000 samples will be analyzed using the Illumina 660K chip. The WTCCC3 will utilize the 6,000 control genotypes generated by the WTCCC2. | gene, genomic, genetics, microarray, genome-wide association study, snp, genome-wide association, blood, dna, genotype, variation, genome, sequence variant, copy number variation, genetic variation, phenotype, disease |
is related to: Psychiatric Genomics Consortium has parent organization: Wellcome Trust Sanger Institute; Hinxton; United Kingdom |
Bipolar disorder, Coronary artery disease, Crohn's disease, Rheumatoid arthritis, Type 1 diabetes, Type 2 diabetes, Hypertension, Control, Multiple sclerosis, Breast cancer, Ankylosing spondylitis, Autoimmune thyroid disease, Malaria, Tuberculosis, Inflammatory bowel disease, Barrett's esophagus, Esophageal adenocarcinoma, Glaucoma, Ischemic stroke, Pre-eclampsia, Parkinson's disease, Psychosis endophenotypes, Psoriasis, Schizophrenia, Ulcerative colitis, Visceral leishmaniasis, Primary biliary cirrhosis, Anorexia nervosa, Human immunodeficiency virus, Renal transplant dysfunction, Diabetes | Wellcome Trust ; Bill and Melinda Gates Foundation ; Wellcome Trust Sanger Institute; Hinxton; United Kingdom |
PMID:17554300 | Access to summary data and individual-level genotype data is available by application to the Wellcome Trust Case Control Consortium Data Access Committee. Access to data will be granted to qualified investigators for appropriate use. | nif-0000-10551 | SCR_001973 | Wellcome Trust Case-Control Consortium (WTCCC) | 2026-02-07 02:05:38 | 212 | ||||
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tbrowse Resource Report Resource Website |
tbrowse (RRID:SCR_001918) | tbrowse | software resource | Software providing a HTML5/javascript based browser for visualizing RNA-seq results in the familiar track layout of common genome browser. But given the quantitative nature of RNA-seq data, in addition to visualizing sequence coverage, the browser quantitates transcript abundance across regions of interest. The HTML5 functionality is made of use to render all the tracks using the canvas drawing element. This greatly reduces the load on servers and allows for rich interactive graphics without the need for third-party plugins. Furthermore, this framework completely segregates data from visualization, making development much easier. The browser is designed to run on all modern browsers: Firefox, Safari, Chrome, Opera and Internet Explorer (though not recommended). | genome, browser, transcriptome, html5, canvas, extjs, visualization, rna-seq |
is listed by: OMICtools has parent organization: Google Code |
THIS RESOURCE IS NO LONGER IN SERVICE | OMICS_01935 | SCR_001918 | tbrowse - HTML5 Transcriptome Browser | 2026-02-07 02:05:38 | 0 |
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