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https://neuinfo.org/mynif/search.php?list=cover&q=*
Service that partners with the community to expose and simultaneously drill down into individual databases and data sets and return relevant content. This type of content, part of the so called hidden Web, is typically not indexed by existing web search engines. Every record links back to the originating site. In order for NIF to directly query these independently maintained databases and datasets, database providers must register their database or dataset with the NIF Data Federation and specify permissions. Databases are concept mapped for ease of sharing and to allow better understanding of the results. Learn more about registering your resource, http://neuinfo.org/nif_components/disco/interoperation.shtm Search results are displayed under the Data Federation tab and are categorized by data type and nervous system level. In this way, users can easily step through the content of multiple resources, all from the same interface. Each federated resource individually displays their query results with links back to the relevant datasets within the host resource. This allows users to take advantage of additional views on the data and tools that are available through the host database. The NIF site provides tutorials for each resource, indicated by the Professor Icon professor icon showing users how to navigate the results page once directed there through the NIF. Additionally, query results may be exported as an Excel document. Note: NIF is not responsible for the availability or content of these external sites, nor does NIF endorse, warrant or guarantee the products, services or information described or offered at these external sites. Integrated Databases: Theses virtual databases created by NIF and other partners combine related data indexed from multiple databases and combine them into one view for easier browsing. * Integrated Animal View * Integrated Brain Gene Expression View * Integrated Disease View * Integrated Nervous System Connectivity View * Integrated Podcasts View * Integrated Software View * Integrated Video View * Integrated Jobs * Integrated Blogs For a listing of the Federated Databases see, http://neuinfo.org/mynif/databaseList.php or refer to the Resources Listed by NIF Data Federation table below.
Proper citation: NIF Data Federation (RRID:SCR_004834) Copy
http://www.daimi.au.dk/%7Emailund/SNPFile/
Software library and API for manipulating large SNP datasets with associated meta-data, such as marker names, marker locations, individuals'' phenotypes, etc. in an I/O efficient binary file format. In its core, SNPFile assumes very little about the metadata associated with markers and individuals, but leaves this up to application program protocols. (entry from Genetic Analysis Software)
Proper citation: SNPFILE (RRID:SCR_009402) Copy
http://www.nhlbi.nih.gov/guidelines/obesity/BMI/bmicalc.htm
Body Mass Index (BMI) for adults can be calculated using only height and weight. Body mass index (BMI) is a measure of body fat based on height and weight that applies to adult men and women.
Proper citation: Body Mass Index Calculator (RRID:SCR_000122) Copy
http://www.homozygositymapper.org/
A web-based approach of homozygosity mapping that can handle tens of thousands markers. User can upload their own SNP genotype files to the database. Intuitive graphic interface is provided to view the homozygous stretches, with the ability of zooming into single chromosomes or user-defined chromosome regions. The underlying genotypes in all samples are displayed. The software is also integrated with our candidate gene search engine, GeneDistiller, so that users can interactively determine the most promising gene. (entry from Genetic Analysis Software)
Proper citation: HOMOZYGOSITYMAPPER (RRID:SCR_001714) Copy
http://eyegene.ophthy.med.umich.edu/madeline/
Software tool designed for preparing, visualizing, and exploring human pedigree data used in genetic linkage studies. It converts pedigree and marker data into formats required by popular linkage analysis packages, provides powerful ways to query pedigree data sets, and produces Postscript pedigree drawings that are useful for rapid data review.
Proper citation: MADELINE (RRID:SCR_001979) Copy
https://www.apbenson.com/cyrillic-downloads
Software application for pedigree drawing with fully integrated risk analysis and support for industry standard databases (MS Access and Corel Paradox). It is designed for genetic counselors and others who work with patients. Cyrillic 2 draws pedigrees, works with genetic marker data, lets you do haplotyping and allows exports to a range of linkage analysis packages.
Proper citation: CYRILLIC (RRID:SCR_001823) Copy
https://cran.r-project.org/web/packages/stepwise/index.html
Software application that is a stepwise approach to identifying recombination breakpoints in a sequence alignment (entry from Genetic Analysis Software)
Proper citation: R/STEPWISE (RRID:SCR_007420) Copy
https://cran.r-project.org/web/packages/snp.plotter/index.html
An R package that creates publishable-quality plots of p-values using single SNP and/or haplotype data. Main features of the package include options to display a linkage disequilibrium (LD) plot and the ability to plot multiple sets of results simultaneously. Plots can be created using global and/or individual haplotype p-values along with single SNP p-values. Images are created as either Portable Document Format (PDF) or Encapsulated (EPS) files. (entry from Genetic Analysis Software)
Proper citation: R/SNP.PLOTTER (RRID:SCR_009376) Copy
http://wpicr.wpic.pitt.edu/WPICCompGen/
Software application (entry from Genetic Analysis Software)
Proper citation: R/SPECTRAL-GEM (RRID:SCR_007414) Copy
http://wpicr.wpic.pitt.edu/WPICCompGen/fdr/
Software application (entry from Genetic Analysis Software)
Proper citation: WEIGHTED FDR (RRID:SCR_013442) 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 to compute composite measures of linkage disequilibrium, their variances and covariances, and statistical tests, for all pairs of alleles from two loci when linkage phase is unkown. An extension of Weir and Cockerham (1989) to apply to multi-allelic loci. (entry from Genetic Analysis Software)
Proper citation: COMPOSITELD (RRID:SCR_013132) Copy
https://atgu.mgh.harvard.edu/plinkseq/
An open-source C/C++ library for working with human genetic variation data. The specific focus is to provide a platform for analytic tool development for variation data from large-scale resequencing projects, particularly whole-exome and whole-genome studies. However, the library could in principle be applied to other types of genetic studies, including whole-genome association studies of common SNPs. (entry from Genetic Analysis Software)
Proper citation: PLINK/SEQ (RRID:SCR_013193) Copy
http://www003.upp.so-net.ne.jp/pub/publications.html#sl
Software application for inkage disequilibrium grouping of single nucleotide polymorphisms (SNPs) reflecting haplotype phylogeny for efficient selection of tag SNPs. (entry from Genetic Analysis Software)
Proper citation: LDGROUP (RRID:SCR_006282) Copy
http://wpicr.wpic.pitt.edu/WPICCompGen/genomic_control/genomic_control.htm
Software application where GC implements the genomic control models. GCF implements the basic Genomic Control approach, but adjusts the p-values for uncertainty in the estimated effect of substructure. This approach is preferable if a large number of tests will be evaluated because it provides a more accurrate assessment of the significance level for small p-values. (entry from Genetic Analysis Software)
Proper citation: GC/GCF (RRID:SCR_009075) Copy
http://wpicr.wpic.pitt.edu/WPICCompGen/newcovibd/covibd.htm
Software application that refines linkage analysis of affected sibpairs by considering attributes or environmental exposures thought to affect disease liability. This refinement utilizes a mixture model in which a disease mutation segregates in only a fraction of the sibships, with the rest of the sibships unlinked. Covariate information is used to predict membership within the two groups corresponding to the linked and unlinked sibships. The pre-clustering model uses covariate information to first form two probabilistic clusters and then tests for excess IBD-sharing in the clusters. The Cov-IBD model determines probabilistic group membership by joint consideration of covariate and IBD values. (entry from Genetic Analysis Software)
Proper citation: COVIBD (RRID:SCR_009155) Copy
http://www.dkfz.de/en/epidemiologie-krebserkrankungen/software/software.html
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 24,2023. Software program that performs estimation of power and sample sizes required to detect genetic and environmental main, as well as gene-environment interaction (GxE) effects in indirect matched case-control studies (1:1 matching). When the hypothesis of GxE is tested, power/sample size will be estimated for the detection of GxE, as well as for the detection of genetic and environmental marginal effects. Furthermore, power estimation is implemented for the joint test of genetic marginal and GxE effects (Kraft P et al., 2007). Power and sample size estimations are based on Gauderman''s (2002) asymptotic approach for power and sample size estimations in direct studies of GxE. Hardy-Weinberg equilibrium and independence of genotypes and environmental exposures in the population are assumed. The estimates are based on genotypic codes (G=1 (G=0) for individuals who carry a (non-) risk genotype), which depend on the mode of inheritance (dominant, recessive, or multiplicative). A conditional logistic regression approach is used, which employs a likelihood-ratio test with respect to a biallelic candidate SNP, a binary environmental factor (E=1 (E=0) in (un)exposed individuals), and the interaction between these components. (entry from Genetic Analysis Software)
Proper citation: PIAGE (RRID:SCR_013124) Copy
http://bioinformatics.ust.hk/BOOST.html
Software application (entry from Genetic Analysis Software) for a method for detecting gene-gene interactions. It allows examining all pairwise interactions in genome-wide case-control studies.
Proper citation: BOOST (RRID:SCR_013133) Copy
Tool for searching sequence databases for homologs of protein sequences, and for making protein sequence alignments. It implements methods using probabilistic models called profile hidden Markov models (profile HMMs). Compared to BLAST, FASTA, and other sequence alignment and database search tools based on older scoring methodology, HMMER aims to be significantly more accurate and more able to detect remote homologs because of the strength of its underlying mathematical models. In the past, this strength came at significant computational expense, but in the new HMMER3 project, HMMER is now essentially as fast as BLAST.
Proper citation: Hmmer (RRID:SCR_005305) Copy
Iowa State University (ISU) is an undergraduate, graduate and research institute. ISU has 100 majors and upwards of 800 student organizations.
Proper citation: Iowa State University; Iowa; USA (RRID:SCR_000972) Copy
http://www.feinsteininstitute.org/Feinstein/Feinstein+HomePage
The Feinstein Institute for Medical Research is the research branch of the North Shore-Long Island Jewish Health System. Biomedical research has been a vital aspect of its two academic medical centers North Shore University Hospital and Long Island Jewish Medical Center since their establishment in the early 1950''s. Through its connection to the hospital system, the Institute bridges the gap between biomedical research and patient care, accessing hundreds of thousands of patients in the health system''s 15 hospitals, four long-term care facilities, three trauma centers, six home health agencies and dozens of outpatient facilities. Institute scientists collaborate with clinicians throughout the system to shed light on basic biological processes underlying disease. This knowledge is used to develop new therapies and diagnostics. Currently, more than 800 scientists and investigators are conducting research in oncology, immunology and inflammation, genetics, psychiatry, neurology, pediatrics, surgery, urology, obstetrics/gynecology and many other specialties. In 2008, the Feinstein received funding from the National Institutes of Health in excess of $28 million, and an additional $10 million from other federal sources. Total annual research funding from all sources exceeded $44 million in 2008. We stand at the threshold of an extraordinary time in medicine. Over the last 100 years, biomedical science has progressed very rapidly. Advances coming from the integration of genomics, proteomics and bioinformatics into the biomedical toolkit hold the promise that this transformation will continue well into the 21st century. The Feinstein Institute for Medical Research is a growing force in research innovation, education and progress.
Proper citation: Feinstein Institute for Medical Research (RRID:SCR_004470) Copy
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