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A software program that allows users to visualize and interpret human metabolim and expression profiling data by providing users with a bioinformatics framework. Its features include bulding and analyzing networks of genes and compounds, identifying enriched pathways from expression profiling data, and visualizing changes in metabolite data.
Proper citation: Metscape (RRID:SCR_014687) Copy
CRBS is a UCSD organized research unit (ORU) that exists to provide human resources, high technology equipment, and administrative services to researchers engaged in fundamental research on cell structure and function relationships in central nervous system processes, cardiovascular networking, and muscular contraction through multiple scales and modalities. CRBS scientists investigate these processes through invention, refinement, and deployment of sophisticated technologies, especially: - High-powered electron microscopes that reveal three-dimensional cell structures - State-of-the-art X-ray crystallography and magnetic resonance analysis that provide detail on protein structures at high-resolution - Laser-scanning and confocal light microscopes that reveal molecules tagged with fluorescent markers as they traffic within cells and pass transfer signals within and between cells - High performance computing and grid-based integration of distributed data CRBS facilitates an interdisciplinary infrastructure in which people from biology, medicine, chemistry, and physics can work with those from computer science and information technologies in collaborative research. Researchers share interests in the study of complex biological systems at many scales, from the structures of enzymes, proteins, and the body's chemical communications network at atomic and molecular levels, to an organism's physiology, strength, and support at cellular and tissue levels. The CRBS infrastructure integrates resources for high-performance computing, visualization, and database technologies, and the grid-integration of large amounts of archival storage data. The California Institute for Telecommunications and Information Technology (Cal-IT2) and the San Diego Supercomputer Center (SDSC) are collaborators in simulating the activity of biological systems, analyzing the results, and organizing the growing storehouse of biological information. CRBS is an entity evolving as research evolves. It forges interactions with biotechnology and biocomputing companies for technology transfer. Interaction, collaboration, and multiscale research produce new perspectives, reveal fruitful research topics, lead to the development of new technologies and drugs, and train a new generation of researchers in biological systems. Sponsors: CRBS is supported by the University of California at San Diego.
Proper citation: Center for Research in Biological Systems (RRID:SCR_002666) Copy
http://stemcells.nih.gov/research/registry/
A listing of human embryonic cell lines that are eligible for use in NIH funded research. Those lines that carry disease-specific mutations are noted as such under the line name. Total Eligible Lines = 200. The purpose of the Registry is to provide investigators with: # a unique NIH Code for each cell line that must be used when applying for NIH funding and # contact information to facilitate investigators' acquisition of stem cells. Before submitting a new grant application and supporting materials for consideration of a human embryonic stem cell line, scientists may wish to see what lines are already under consideration: * Human embryonic stem cell lines submitted to NIH that are being reviewed to determine if they may be used in NIH-supported research, http://grants.nih.gov/stem_cells/registry/pending.htm President George W. Bush required that the name of the registry be changed in his Executive Order #13435, issued on June 20, 2007. As a result of this Executive Order, the former National Institutes of Health Human Embryonic Stem Cell Registry will now be called the National Institutes of Health Human Pluripotent Stem Cell Registry. The registry will now include both human embryonic stem cells that were derived consistent with the President's policy of August 9, 2001 and human pluripotent stem cells derived from non-embryonic sources.
Proper citation: NIH Human Pluripotent Stem Cell Registry (RRID:SCR_003149) Copy
http://www.icn.ucl.ac.uk/motorcontrol/imaging/suit.htm
High-resolution atlas template of the human cerebellum and brainstem, based on the anatomy of 20 young healthy individuals. The atlas is spatially unbiased, i.e. the location of each structure is equal to the expected location of that structure across individuals in MNI space. At the same time, the new template preserves the anatomical detail of cerebellar structures through a nonlinear atlas-generation algorithm. By using automated nonlinear normalization methods, a more accurate intersubject-alignment than current whole-brain methods can be achieved. The toolbox allows you to: * Automatically isolate cerebellar structures from the cerebral cortex based on an anatomical image * Achieve accurate anatomical normalization of cerebellar structures * Normalize functional imaging data for fMRI group analysis * Normalize focal cerebellar lesions for lesion-symptom mapping * Use Voxel-based morphometry (VBM) to determine patterns of cerebellar degeneration or growth * Use a probabilisitc atlas in SUIT space to assign locations to different cerebellar lobuli in an unbiased and informed way * Automatically define ROIs for specific cerebellar lobuli and summarize function and anatomical data * Improve normalization of the deep cerebellar nuclei using an ROI-driven normalization. The suit-toolbox requires Matlab (Version 6.5 and higher) and SPM. The newest version only supports SPM8, although it likely runs under SPM2 or 5 as well. A standalone version for the suit-toolbox is not planned. Usage of the isolation or normalization functions, however, does not require that the analysis is conducted under SPM.
Proper citation: Spatially unbiased atlas template of the cerebellum and brainstem (RRID:SCR_004969) Copy
Platform for large-scale, automated synthesis of functional magnetic resonance imaging (fMRI) data extracted from published articles. It''s a website wrapped around a set of open-source Python and JavaScript packages. Neurosynth lets you run crude but useful analyses of fMRI data on a very large scale. You can: * Interactively visualize the results of over 3,000 term-based meta-analyses * Select specific locations in the human brain and view associated terms * Browse through the nearly 10,000 studies in the database Their ultimate goal is to enable dynamic real-time analysis, so that you''ll be able to select foci, tables, or entire studies for analysis and run a full-blown meta-analysis without leaving your browser. You''ll also be able to do things like upload entirely new images and obtain probabilistic estimates of the cognitive states most likely to be associated with the image.
Proper citation: NeuroSynth (RRID:SCR_006798) Copy
Center dedicated to understanding and treatment of neurological diseases by creating and using imaging methods to study human nervous system. Dedicated to research imaging of human brain. Brain structure is imaged using anatomical Magnetic Resonance Imaging (aMRI) while brain physiology is imaged using Positron Emission Tomography (PET), Magnetic Resonance Spectroscopy (MRS), functional MRI (fMRI) and magnetoencephalography (MEG). BIC maintains linkages with clinical, clinical research and basic research communities within Montreal Neurological Institute (MNI), McGill University and has collaborations across Quebec, Canada, USA and internationally.
Proper citation: McConnell Brain Imaging Center (RRID:SCR_008364) Copy
http://www.scienceexchange.com/facilities/microarray-resource-core-bu
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 22,2024. Microarray Resource Core offers the full line of microarray products available from Affymetrix. This includes expression profiling, miRNA, exon, genotyping, resequencing, and tiling arrays. As part of our standard service, the resource provides assistance with experimental design and data analysis. Arrays for other organisms are available; please contact us for with specific requests.
Proper citation: Boston University Microarray Resource Core (RRID:SCR_012491) Copy
A database that houses human subjects data related to mental health research. Data from 691 subjects are shared in RDoCdb and data from 100,500 subjects are shared in the NIMH Data Archive. Users can plan for data submission, share data, query data, or share their results related to a publication or finding.
Proper citation: RDoCdb (RRID:SCR_013796) Copy
The Aging, Dementia and Traumatic Brain Injury Study is a detailed neuropathologic, molecular and transcriptomic characterization of brains of control and TBI exposure cases from a unique aged population-based cohort from the Adult Changes in Thought (ACT) study. The study contains six data sets: histology and immunohistochemistry, in situ hybridization, rna-seq, protein quantification by luminex, isoprostane quantification, and specimen metadata.
Proper citation: Aging Dementia and Traumatic Brain Injury Study (RRID:SCR_014554) Copy
https://www.kaggle.com/rramele/p300samplingdataset
Dataset replicating the experiment done on BNCI-HORIZON 008-2014 dataset. BCI P300 Speller Kaggle Dataset for Healthy subjects
Proper citation: P300-Dataset (RRID:SCR_015977) Copy
https://dna-analysis.yale.edu/
Core supports DNA Sequencing of PCR, Plasmid, BAC and Fosmid templates, Fragment Analysis of Microsatellites, AFLP, t-RFLP, SHAPE Experiments and Human Cell Line Authentication.
Proper citation: Yale University DNA Analysis on Science Hill Core Facility (RRID:SCR_017689) Copy
http://cancer.northwestern.edu/research/shared-resources/pathology-core-facility.html
Centralized, comprehensive, core laboratory providing histology, immunohistochemistry, molecular analysis and extraction and microscopic evaluation services for human tissue-based studies. Serves integral marker studies that require biomarker-based treatment arm assignment. Performs procurement of fresh biospecimens for clinical trials and biobanking.
Proper citation: Northwestern University School of Medicine Lurie Cancer Center Pathology Core Facility (RRID:SCR_017769) Copy
http://www.mskcc.org/research/molecular-cytogenetics
Core supports cytogenetic analysis of cells from human and research animal sources. Range of chromosome analysis techniques are ranging from basic G-banded karyotyping, to 24-color Spectral Karyotyping (SKY), as well as Fluorescence in situ Hybridization (FISH) mapping of cloned DNAs.Services include:Karyotype characterization of new cell lines,Confirmation of cell line identity or stability,Karyotype screening of ES cells prior to transgenesis,Mapping of transgene integration sites,Chromosome or locus copy number enumeration,Publication-quality illustrations.Cytogenetic techniques available:Short-term cell culture,Metaphase chromosome preparation,G-banded karyotyping.FISH techniques available:DNA labeling for custom probe generation (for FISH projects),DNA amplification by DOP-PCR,Chromosome painting,FISH mapping (on chromosomes, interphase nuclei or DNA fibers),Tissue FISH (paraffin or frozen sections),Immuno-FISH (DNA FISH combined with fluorescent immunostaining) , Spectral karyotyping (SKY),Q-FISH (measurement of telomere lengths).
Proper citation: Memorial Sloan Kettering Cancer Center Molecular Cytogenetics Core Facility (RRID:SCR_017850) Copy
http://www.einstein.yu.edu/departments/genetics/resources/molecular-cytogenetics-core.aspx
Core provides tools for preparation of human and murine samples suitable for molecular genetic and cytogenetic analysis of entire genome. These tools include establishment of EBV transformed cell lines; isolation of DNA and mRNA from variety of tissue culture samples as well as primary biopsies; preparation of metaphase chromosomes suitable for fluorescence in situ hybridization (FISH) and Spectral Karyotyping (SKY) or whole chromosome paints for human and mouse genome. Core personnel is trained to hybridize commercial probes and to designed locus specific probes for regions of interest to investigators. All probes are custom designed and in house generated.
Proper citation: Albert Einstein College of Medicine Molecular Cytogenetics Core Facility (RRID:SCR_017815) Copy
http://neuralsci.org/neuracell
Core facility provides neural stem cells (NSC) and everything you need to grow them, custom lentiviral shRNA and over-expression vectors, consult based characterization service where we can assess how your products or reagents affect stem cell performance and behavior. Services include:Cell Supply,Adult SVZ Neural Stem Cells,Any Age Embryonic stem cells from any region of the brain,Human Retinal Pigmented Epithelial cells,RPE iPSCs,iPSCs,Neural Progenitor Cells (NPCs),Custom Orders,Media/ Dissociation Reagents,High-performance Media formulated according to optimal cell growth conditions,Complete Defined Media for Neural Stem Cell Culture,Complete Defined Media for Human Retinal Pigmented Epithelial Culture,Cell characterization. Performs assays to verify how stem cell populations behave in response to certain environments, plastics, reagents, etc., using trade secret assays via FACS and cell culture techniques. This can be used for neural stem cells as well as embryonic stem cells.Cell banking solutions shall ensure that their integrity is maintained, and that sufficient supply is readily available. We will also expand cells, harvest cells, generation the freezing medium and thaw cells to test performance. Provides Generation of custom lentiviral shRNA constructs,Generation of custom lentiviral over-expression constructs,Supply of NSC lines already expressing these shRNA or over-expression constructs.
Proper citation: Neural Stem Cell Institute NeuraCell Core Facility (RRID:SCR_017821) Copy
http://hihg.med.miami.edu/cgt/gene-expression
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 27,2025. CGT gene expression core utilizes Affymetrix GeneChip Arrays and Illumina BeadChips to identify gene expression variation in single genes, targeted set of genes, or entire genomes. Affymetrix GeneChip Arrays Human Gene ST,Human Transcriptome Array 2.0, Human Exon ST, Human miRNA, Illumina Expression, HumanHT-12 v4 BeadChip.
Proper citation: University of Miami Miller School of Medicine Gene Expression Core Facility (RRID:SCR_017825) Copy
http://omrf.org/research-faculty/core-facilities/human-antibody-core-facility/
Core produces fully human, full length, antigen specific antibodies for use in studying human immune responses. Produces high affinity protective antibodies to influenza, anthrax lethal toxin, and various S. pneumonia polysaccharides. Helps quantify antibody secreting cell responses after vaccination and by generating human monoclonal antibodies to be characterized. Pathogen specific human monoclonal antibodies are also available for licensing agreements and other forms of commercial development. Services include to define temporal human immune responses after vaccination and to generate human monoclonal antibodies to supplement research,development of novel methods to produce human monoclonal antibodies after acute infection and other immune events, investigation of new technologies for characterization of human monoclonal antibodies produced by core.
Proper citation: Oklahoma Medical Research Foundation Human Antibody Core Facility (RRID:SCR_017795) Copy
Core provides fully automated high throughput screening (HTS) of Compound Libraries (130,000+ compounds) for both enzyme/protein-based assays and cell-based assays, using Caliper Life Sciences Staccato system;Genomic siRNA screening with siARRAY whole human genome siRNA library from Dharmacon targeting 21,000 genes, using Agilent Bravo system;High-Content Screening using ImageXpress Micro automated fluorescent microscope with live cell, bright field, phase contrast and integrated plate handling with Thermo Catalyst CRS, and image analysis using MetaXpress software;High Throughput Molecular Biology reagents and services, including access to cDNA libraries (Human ORFeome collection, 15,000 genes) and 96 and 384-well bead clean-ups and PCR setup (Biomek FX and Agilent Bravo), and other automation steps in collaboration with SFGF;High-throughput assay development assistance with cell culture, experiment design, robotic programming and Standard Operating Procedure drafting;Screening data analysis assistance with protocols, hit determination and structure activity analyses using MDL chemical database ISIS/HOST, Plate Manager, Assay Explorer and Report Manager. Use of microplate reader detection systems, including Tecan Infinite M1000 and Infinite M1000 PRO and Molecular Devices Analyst GT for fluorescence; fluorescence polarization; time-resolved fluorescence; absorbance and luminescence (with injectors and AlphaScreen); and Flexstation II 384, for kinetic fluorescence reads to measure calcium mobilization and ion channels.Use of liquid-handling robots, including Sciclone ALH3000 (96- and 384-well pipetting), Agilent Bravo (96- and 384-well pipetting), Velocity11 VPrep (96-well pipetting), Bio-Tek plate washers/dispensers, Matrix Wellmate and Titertek/Labsystems Multidrop microplate dispensers, and Velocity11 PlateLoc plate heat sealer;Training for most of these services.
Proper citation: Stanford University School of Medicine High Throughput Bioscience Center Core Facility (RRID:SCR_017794) Copy
Facility serves as specialized laboratory performing correlative assays for cancer-based clinical trials. Participates in project development to assist in assay selection and optimization prior to study initiation. Offers pick-up service for specimens from patients at U of C Hospital or outpatient clinics, and process samples as indicated for assays being performed. For some studies, isolation and freezing of peripheral blood lymphocytes for analysis at later date is performed, while for others immediate staining of whole blood for specific cell surface markers of interest is carried out. Prepares clinical grade products, such as peptide vaccines, for administration into patients.Assays performed include ELISA, ELISPOT, tetramer binding assays, detection of cell surface markers by flow cytometry, and biochemical assays such as Western Blots, RNA extraction from tumor biopsies and either real time RT-PCR for specific transcripts or preparation of samples for gene expression profiling. Facility is equipped with MACSQuant Flow Cytometer, ELISA microplate reader, ELISPOT reader, PCR thermocyclers, CO2 incubators, biosafety cabinets, centrifuges, and equipment for Western blot analysis. Performs assays on human samples but consideration will be given to expanding these services to mouse-model systems.
Proper citation: University of Chicago Human Immunologic Monitoring Core Facility (RRID:SCR_017916) Copy
Core mission is to drive scientific discovery through use of human specimens.Helps facilitate translational research, match human specimen resources to scientific needs, foster multi-investigator collaborative projects, and catalyze scientific innovation,improving researcher access to existing biospecimen resources, and enhancing institution-wide tissue-banking efforts and capacity. Another priority is to implement campus-wide policy for human biospecimen collection and storage to ensure regulatory compliance.
Proper citation: New York University School of Medicine Langone Health Center for Biospecimen Research and Development Core Facility (RRID:SCR_017930) Copy
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