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http://faculty.washington.edu/eathomp/Anonftp/PANGAEA/BOREL/
Software application for inference of genealogical relationships from genetic data, including sibship inference.
Proper citation: BOREL (RRID:SCR_013135) Copy
http://mayoresearch.mayo.edu/mayo/research/schaid_lab/software.cfm
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 24,2023. Software application for statistical methods for disease and genetic marker associations using cases and their parents. These methods include an extension of the transmission/disequilibrium test (TDT) for multiple marker alleles, as well as additional general tests sensitive to associations that depend on dominant or recessive genetic mechanisms. (entry from Genetic Analysis Software)
Proper citation: GASSOC (RRID:SCR_013136) Copy
http://www.bio.unc.edu/faculty/vision/lab/mappop/
Software application that selects high resolution mapping subsamples and performs bin mapping (entry from Genetic Analysis Software)
Proper citation: MAPPOP (RRID:SCR_013490) Copy
http://dlin.web.unc.edu/software/SNPMStat/
A command-line program for the statistical analysis of SNP-disease association in case-control/cohort/cross-sectional studies with potentially missing genotype data. SNPMStat allows the user to estimate or test SNP effects and SNP-environment interactions by maximizing the (observed-data) likelihood that properly accounts for phase uncertainty, study design and gene-environment dependence. For SNPs without missing data, the program performs the standard association analysis. For typed SNPs with missing data or untyped SNPs, the program performs the maximum-likelihood analysis. (entry from Genetic Analysis Software)
Proper citation: SNPMSTAT (RRID:SCR_013339) Copy
http://www.cbil.ece.vt.edu/ResearchOngoingSNP.htm
Software application (entry from Genetic Analysis Software)
Proper citation: MECPM (RRID:SCR_013341) Copy
http://www.bios.unc.edu/~lin/software/MAOS/
Software application that implements valid and efficient statistical methods for meta-analysis of genomewide association studies with overlapping subjects. The current release performs logistic regression analysis of individual level data under the additive mode of inheritance. Data from genome-wide association studies are often analyzed jointly for the purposes of combining information from multiple studies of the same disease or comparing results across different disorders. In many instances, the same subjects appear in multiple studies. Failure to account for overlapping subjects can greatly inflate type I error when combining results from multiple studies of the same disease and can drastically reduce power when comparing results across different disorders. (entry from Genetic Analysis Software)
Proper citation: MAOS (RRID:SCR_013351) Copy
http://harvest.readthedocs.org/en/latest/content/harvest-tools.html
Software tools archiving and postprocessing for reference-compressed genomic multi-alignments. It is used for creating and interfacing with Gingr files, which are archives that the Harvest Suite uses to store reference-compressed multi-alignments, phylogenetic trees, filtered variants and annotations.
Proper citation: Harvest-tools (RRID:SCR_016132) Copy
http://www.sanger.ac.uk/science/tools/ssaha2-0
A program designed for the efficient mapping of sequence reads onto genomic references. The software is capable of reading most sequencing platforms and giving a range of outputs are supported.
Proper citation: Sequence Search and Alignment by Hashing Algorithm (RRID:SCR_000544) Copy
https://bioinformatics.forsyth.org/
Core specializes in oral microbial genomics, taxonomy, phylogenetics and the next generation sequence (NGS) data analysis with both in house and cloud high performance computational resource. In addition to supporting funded bioinformatics projects, Bioinformatics Core will also provide computational support to Forsyth and other researchers for processing, analyzing, and interpreting biological data.
Proper citation: Forsyth Institute Bioinformatics Core Facility (RRID:SCR_009783) Copy
Core laboratory for nucleic acid sequencing and bioinformatics. Used for research support, education, and training. Services include genomic techniques and applications, sequencing technologies, and bioinformatics analyses, writting letters of support for grant applications submitted to funding agencies. GGBC operates multiple platforms for short-, long-, and single-molecule sequencing reads (i.e., Illumina MiSeq and NextSeq, PacBio Sequel, and Oxford Nanopore MinIon).
Proper citation: Georgia Genomics and Bioinformatics Core at the University of Georgia (RRID:SCR_010994) Copy
http://www.scienceexchange.com/facilities/centrillion-biosciences-inc
Centrillion offers a portfolio of genomic services to academic, clinical and industrial researchers. Core provides experimental design consultation, data production services, and bioinformatics analyses for a wide variety of genomic applications. Core offers access to next-gen sequencing, genotyping and bioinformatics analysis.
Proper citation: Centrillion Biosciences Inc. (RRID:SCR_012358) Copy
http://www.salk.edu/science/core-facilities/integrative-genomics-and-bioinformatics-core/
Core facility established to assist the Salk community with integrating genomics data into their research. The primary focus of the core is to provide analysis support for next-generation sequencing applications.
Proper citation: Salk Institute Razavi Newman Integrative Genomics and Bioinformatics Core Facility (IGC) (RRID:SCR_014842) Copy
Services to life science and biotech communities in South Africa. Based in Cape Town, combine information about genomic and proteomic technologies with bio computational pipelines to create fit for purpose offerings for customers in academia and industry.
Proper citation: University of Cape Town Centre for Proteomic and Genomic Research (CPGR) Core Facility (RRID:SCR_017158) Copy
Core research facility providing genomic services that include next generation sequencing , single cell sequencing, metagenomic, targeted amplicon sequencing, and Sanger sequencing.
Proper citation: University of Missouri-Columbia DNA Core Facility (RRID:SCR_017778) Copy
https://genome.duke.edu/cores-and-services/sequencing-and-genomic-technologies
Basic research oriented core provides genomic services.Services include Next Generation Sequencing Solutions,DNA and RNA sequencing, Illumina, PacBio, NGS Library preparation including single-cell RNA-seq, Nucleic Acid Extraction Services, total RNA extraction from blood samples in PAXgene tubes, total RNA extractions from cell pellets and miRNA extraction from serum/plasma.
Proper citation: Duke University Sequencing and Genomic Technologies Core Facility (RRID:SCR_017748) Copy
http://dmpi.duke.edu/molecular-genomics-shared-resource
Core offers variety of experimental platforms to facilitate genomics research. Accredited as Duke Shared Resource facility offers experience with genetic, genomic and epigenomic study design and technology, working closely with researchers to customize experiments to meet their needs. Applications include 10x Genomics NGS library generation for both single cell and gDNA experiments, DNA methylation microarrays, SNP genotyping and copy number microarrays, and Taqman targeted SNP genotyping.
Proper citation: Duke University Molecular Genomics Core Facility (RRID:SCR_017860) Copy
Core provides ES cell services with high probability of germline transmission. Offers ES cell targeting, genomic DNA extraction from 96-well plates, expansion of targeted ES cells, chromosome counts, and preparation of ES cells for microinjection.Prior to initiation of project, consultation is available on entire procedures of generating knockout mice. Core works with Gladstone Transgenic Gene Targeting Core for your microinjections to deliver full-range gene targeting service;CRISPR gRNA cloning,Cell-based functional test to identify best-performing TALENs or sgRNAs for your gene-editing experiment via mismatch-based assays such as Surveyor or T7E1;In vitro RNA synthesis - can help to make RNAs for your zygote injection or RNA transfection. We have TALEN and Cas9 plasmids with either T7 or T3 promoter subcloned in for efficient in vitro synthesis.sgRNAs for CRISPR can be synthesized off T7-sgRNA PCR product. Quality of synthesized RNAs will be checked via bioanalyzer;Custom TALEN to make double-strand breaks in genome;ES cell targeting (feeder-independent).Investigators targeting construct will be electroporated by core personnel. We have two feeder-independent ES cell lines, E14 (129-derived) and JM8A3.N1 (C57BL/6-derived) you can choose from. After drug selection for about one week, up to 300 colonies will be picked. When they are about to be confluent, we will split them as duplicate, one master plate to freeze for future expansion of positive clones and one plate for genotyping to identify targeted ES cell clones. Your plates for genotyping will be ready for pick-up 2-3 weeks after electroporation date.Genomic DNA extraction from ES cells on 96-well plate;Expansion of targeted clones from core targeting (up to 5 clones),A maximum of 5 positive clones will be thawed from 96-well plates and expanded to 6-wells. We will freeze 5 vials (each about 1 million)/clone for future use and give you 1 vial-equivalent cells to validate your genotyping before injection. It takes about 10 days to expand and freeze down cells;Expansion of ES cells from outside resources (per clone) Investigators provide one vial of frozen ES cells with information about culture condition from original resource. We will revive, nurture, and refreeze ES cells (5 vials) when they are ready. In addition, we will give you 1~2 million cells for your genotyping verification;Preparation for microinjection;Chromosome counting;Custom services.
Proper citation: University of California at San Francisco Embryonic Stem Cell Targeting Core Facility (RRID:SCR_017902) Copy
https://www.bi.vt.edu/services/genomics-sequencing-center
Core for development and application of Next-Generation Sequencing technologies. Provides experimental design consultation, and genomic, transcriptomic, and functional-genomics services. Specializes in development and application of Next-Generation Sequencing technologies and bioinformatics analyses. Instruments include Illumina NovaSeq 6000, Illumina NextSeq 500,Illumina MiSeq,Thermo Ion S5. Services include mRNA-Seq: Stranded and non-stranded, high levels of multiplexing up to 96 or more samples on NovaSeq;Standard amounts, Stranded-Seq: 500 ng total RNA, RIN 8;Low Input amounts, Stranded-Seq: 5 ng to 100 ng total RNA;Ultra Low Input amounts, Non-Stranded-Seq: 1-1000 cells or 10 pg - 10 ng;Total RNA-Seq - Stranded: 5-250 ng;Small RNA-Seq: 1 ug, multiplexing up to 48 samples/NextSeq run;Partially degraded samples - Stranded and Non-Stranded: LCM, FFPE samples, both stranded and non-stranded, 50 -100 ng;Microbial rRNA depletion and RNA-Seq with amounts as low as 1-5 ug of total RNA;Whole Genome Sequencing;Human / Animal / Plant;Microbial;As low as 1 ng De novo Sequencing;Exome/Targeted capture re-sequencing: Enables high sequencing depths;Agilent and Illumina platforms;Human, Mouse, Canine and other species;Targeted re-sequencing: High levels of multiplexing up to 200 samples / MiSeq run;PCR Amplicon sequencing;Illumina and Agilent platforms;ChIP-Seq;Transcription factor analysis;Histone modifications;DNA Methylation;MeDIP- and MBD-Seq;MethylC-Seq;Agilent SureSelect MethylC-Seq;Nucleosome Mapping;FAIRE-Seq and DNAse I-Seq;16S / 18S / ITS amplicon sequencing;Whole Genome Metagenomic sequencing;Metatranscriptomic analysis;DNA/chromatin fragmentation by Covaris DNA / RNA quality analysis: BioAnalyzer / TapeStation assay, Qubit (Picogreen) assays;qPCR services.
Proper citation: Virginia Tech Biocomplexity Institute Genomics Sequencing Center Core Facility (RRID:SCR_017958) Copy
Formerly Center for Genome Research and Biocomputing Core Facility. Functions and facilities include services in genomics, functional genomics, genotyping and imaging.Biocomputing facilities with computing infrastructure, which includes managed cloud and shared resources, data analyses and training are customized to individual needs, including genome assembly and annotation, analysis of RNAseq, GBS, and metagenomics data, and GPU-enabled deep learning analyses.
Proper citation: Oregon State University Center for Quantitative Life Sciences Core Facility (RRID:SCR_018373) Copy
Center for excellence research in genomic medicine, focusing on the comprehensive study and understanding of the genetic basis of human diseases in general, placing special emphasis on cancer and its genetic disorders related to inheritance. GENYO was created as a multidisciplinary research space, where different professionals from the healthcare, university and business areas interact, making it possible to generate new systems to diagnose, prevent and treat diseases based on the joint and coordinated application of first-rate knowledge in the different areas of genetics. The center is the benchmark center of the Andalusian Program for Research in Clinical Genetics and Genomic Medicine, a program which, together with those of Cell Therapy and Regenerative Medicine, and Nanomedicine have the main objective of supporting and fostering translational research in Advanced Therapies. The activities performed within these three research programs are developed in coordination with the Andalusian Initiative for Advanced Therapies (IATA), an initiative of the Andalusian Government promoted by the Regional Ministries of Health and Innovation, Science and Enterprise.
Proper citation: Centre for Genomics and Oncological Research (RRID:SCR_003920) Copy
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