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| Resource Name | Proper Citation | Abbreviations | Resource Type |
Description |
Keywords | Resource Relationships | |||||||||||||
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MICe - Mouse Imaging Centre Resource Report Resource Website 1+ mentions |
MICe - Mouse Imaging Centre (RRID:SCR_006145) | MICe | reference atlas, portal, data or information resource, production service resource, atlas, service resource, topical portal | A unique resource and comprehensive imaging facility combining the latest state-of-the-art digital medical imaging technologies for the characterization of mouse functional genomics. The goals of the Mouse Imaging Centre are: * To provide a variety of medical imaging technologies adapted to studying genetically modified mice. These technologies include magnetic resonance (MR) imaging, micro computed tomography (micro-CT), ultrasound biomicroscopy (UBM), and optical projection tomography (OPT). * To screen large numbers of mice for models of human diseases. * To image an individual mouse over time to observe development, disease progression and responses to experimental treatment. * To develop an exciting team of investigators with expertise in imaging techniques, computer science, engineering, imaging processing, developmental biology and mouse pathology. * To work by collaboration with researchers throughout the world. When we look for human diseases in the human population, we make extensive use of medical imaging. Therefore, it makes sense to have available the same imaging capabilities as we investigate mice for models of human disease. The Mouse Imaging Centre (MICe) has developed high field magnetic resonance imaging microscopy, ultrasound biomicroscopy, micro computed tomography, and optical techniques. With these imaging tools, MICe is screening randomly mutagenized mice to look for phenotypes that represent human diseases and is taking established human disease models in mice and using imaging to follow the progression of disease and response to treatment over time. It is clear that imaging has a major contribution to make to phenotyping genetic variants and to characterizing mouse models. MICe is staffed by an exciting new team of about 30 investigators with expertise in imaging techniques, computer science, engineering, imaging processing, developmental biology and mouse pathology. The Mouse Imaging Centre (MICe) is not a fee-for-service facility but works through collaborations. Services include: * Projects involving MicroCT are available as a fee for service. * We will eventually move to the same model above with MRI. * Ultrasound Biomicroscopy is used for cardiac, embryo and cancer studies and is available as fee for service at $100 per study or in some cases on a collaborative basis. * Optical Projection Tomography has only limited availability on a collaborative basis. Mouse Atlas As our images are inherently three-dimensional, we will be able to make quantitative measures of size and volume. With this in mind, we are developing a mouse atlas showing the normal deviation of organ sizes. This atlas is an important resource for biologists as it has the potential to eliminate the need to sacrifice as many controls when making comparisons with mutants. Mouse Atlas Examples: * Variational Mouse Brain Atlas * Cerebral Vascular Atlas of the CBA Mouse * Neuroanatomy Atlas of the C57Bl/6j Mouse * Vascular Atlas of the Developing Mouse Embryo * Micro-CT E15.5 Mouse Embryo Atlas | imaging, functional genomics, mutant mouse, mri, micro computed tomography, ultrasound biomicroscopy, optical projection tomography, phenotype, genetic variant, brain, image | has parent organization: Toronto Centre for Phenogenomics | Human disease | Burroughs Wellcome Fund ; Canada Foundation for Innovation ; Canada Research Chairs ; Canadian Institutes of Health Research ; National Cancer Institute of Canada ; NIH ; Ontario Innovation Trust ; Ontario Research and Development Challenge Fund ; commercial partners |
nlx_151635 | SCR_006145 | Mouse Imaging Centre, Mouse Imaging Center, Mouse Imaging Centre (MICe) | 2026-02-14 02:01:15 | 3 | ||||||
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ResearchMatch Resource Report Resource Website 100+ mentions |
ResearchMatch (RRID:SCR_006387) | ResearchMatch | community building portal, people resource, portal, data or information resource, patient registry | Free and secure registry to bring together two groups of people who are looking for one another: (1) people who are trying to find research studies, and (2) researchers who are looking for people to participate in their studies. It has been developed by major academic institutions across the country who want to involve you in the mission of helping today''''s studies make a real difference for everyone''''s health in the future. Anyone can join ResearchMatch. Many studies are looking for healthy people of all ages, while some are looking for people with specific health conditions. ResearchMatch can help ''''match'''' you with any type of research study, ranging from surveys to clinical trials, always giving you the choice to decide what studies may interest you. | recruit, volunteer, clinical research, clinical, recruitment registry, registry, patient, clinical study, clinical trial, survey |
is related to: Clinical and Translational Science Awards Consortium has parent organization: Vanderbilt University; Tennessee; USA |
Healthy, Specific health condition | NIH ; NCATS UL1TR000445; NCRR 1U54RR032646-01 |
PMID:22104055 | nlx_152168 | SCR_006387 | Research Match | 2026-02-14 02:01:16 | 180 | |||||
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Accelerating Medicines Partnership - Alzheimers Resource Report Resource Website |
Accelerating Medicines Partnership - Alzheimers (RRID:SCR_003742) | AMP Alzheimer's, AMP Alzheimer's Disease | data or information resource, organization portal, portal, consortium | The Alzheimer's disease arm of the Accelerating Medicines Partnership (AMP) that will identify biomarkers that can predict clinical outcomes, conduct a large scale analysis of human AD patient brain tissue samples to validate biological targets, and to increase the understanding of molecular pathways involved in the disease to identify new potential therapeutic targets. The initiative will deposit all data in a repository that will be accessible for use by the biomedical community. The five year endeavor, beginning in 2014, will result in several sets of project outcomes. For the biomarkers project, tau imaging and EEG data will be released in year two, as baseline data becomes available. Completed data from the randomized, blinded trials will be added after the end of the five year studies. This will include both imaging data and data from blood and spinal fluid biomarker studies. For the network analysis project, each project will general several network models of late onset AD (LOAD) and identify key drivers of disease pathogensis by the end of year three. Years four and five will be dedicated to validating the novel targets and refining the network models of LOAD, including screening novel compounds or drugs already in use for other conditions that may have the ability to modulate the likely targets. | drug, drug development, biomarker, data sharing, consortium, disease target, drug design, brain tissue, brain, tissue, clinical, neuroimaging, tau, blood, cerebral spinal fluid, eeg, clinical trial, amyloid beta, neurofibrillary tangle |
is listed by: Consortia-pedia is related to: Accelerating Medicines Partnership Autoimmune Diseases of Rheumatoid Arthritis and Lupus is related to: Accelerating Medicines Partnership Type 2 Diabetes Knowledge Portal (AMP-T2D) is related to: Accelerating Medicines Partnership Type 2 Diabetes Knowledge Portal (AMP-T2D) is related to: Accelerating Medicines Partnership Autoimmune Diseases of Rheumatoid Arthritis and Lupus has parent organization: Foundation for the National Institutes of Health has parent organization: Accelerating Medicines Partnership |
NIH ; Industry partners |
nlx_157974 | SCR_003742 | Accelerating Medicines Partnership - Alzheimer's Disease, Accelerating Medicines Partnership - Alzheimer's, Accelerating Medicines Partnership Alzheimer's Disease | 2026-02-14 02:00:30 | 0 | |||||||
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elements of morphology Resource Report Resource Website 1+ mentions |
elements of morphology (RRID:SCR_003707) | international standard specification, data set, data or information resource, narrative resource, standard specification | Data set of standardized terms used to describe human morphology including definitions of terms for the craniofacies in general, the major components of the face, and the hands and feet. This provides a uniform and internationally accepted terms to describe the human phenotype. | dysmorphology, morphology, malformation, face, hand, foot, facial feature, phenotype, nose, philtrum, ear, lip, mouth, oral region, head, face, periorbital, terminology, vocabulary |
is used by: NIF Data Federation has parent organization: National Human Genome Research Institute |
NIH | PMID:19127575 PMID:19125436 PMID:19125433 PMID:19125428 PMID:19152422 PMID:19152421 |
Public domain, Acknowledgement requested | nlx_157874 | SCR_003707 | Human Malformation Terminology, Elements of Morphology: Human Malformation Terminology | 2026-02-14 02:00:30 | 4 | ||||||
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Accelerating Medicines Partnership Autoimmune Diseases of Rheumatoid Arthritis and Lupus Resource Report Resource Website |
Accelerating Medicines Partnership Autoimmune Diseases of Rheumatoid Arthritis and Lupus (RRID:SCR_003731) | AMP Autoimmune, AMP RA/SLE | data or information resource, organization portal, portal, consortium | The autoimmune disease arm of the Accelerating Medicine Partnership (AMP), which aims to identify and validate the most promising biological targets of disease for new diagnostic and drug development, that is focused on rheumatoid arthritis (RA) and systemic lupus erythematosus (SLE). They seek to identify shared common flaws in inflammation, particularly those that are shared with a larger number of autoimmune disorders which can cause severe disability, greatly affect quality of life, and are associated with an increased risk of death. This project aims to reveal biomarkers and biological targets for drug development, matching existing drugs to patients with specific molecular profiles who are most likely to benefit. The research plan proposes a 5 year process. Year one will include startup activities such as validation of tissue acquisition processes and analytic technologies, and the development of operating procedures. The second year will focus on identification of disease specific pathways by comparing data from patients and healthy individuals. Years 3-5 will expand the scale to include comparisons of different subsets of patients with RA or lupus to allow molecularly based patient stratification for precise treatment. The final 12 months (2019) will also include preliminary target validation. The data will be made publicly available through an internet-based information portal. | drug, drug development, biomarker, data sharing, consortium, gene expression, signaling, tissue, organ, synovium, kidney, skin, blood cell, inflammation |
is listed by: Consortia-pedia is related to: Accelerating Medicines Partnership - Alzheimers is related to: Accelerating Medicines Partnership - Alzheimers is related to: Accelerating Medicines Partnership Type 2 Diabetes Knowledge Portal (AMP-T2D) has parent organization: Foundation for the National Institutes of Health has parent organization: Accelerating Medicines Partnership |
NIH ; Industry partners |
nlx_157975 | SCR_003731 | Accelerating Medicines Partnership - Autoimmune, AMP Autoimmune Diseases of Rheumatoid Arthritis and Lupus, AMP RA/SLE Program, Accelerating Medicines Partnership - Autoimmune Diseases, Accelerating Medicines Partnership - Arthritis, AMP Rheumatoid arthritis and lupus, Accelerating Medicines Partnership - Autoimmune Diseases of Rheumatoid Arthritis and Lupus | 2026-02-14 02:00:52 | 0 | |||||||
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University of Cincinnati Research and Training in Cardiovascular Biology Resource Report Resource Website |
University of Cincinnati Research and Training in Cardiovascular Biology (RRID:SCR_003860) | UC Research and Training in Cardiovascular Biology | postdoctoral program resource, training resource, graduate program resource, portal, data or information resource, organization portal, medical school program resource, degree granting program | Our 24 faculty members approach the Research and Training in Cardiovascular Biology program from different subspecialties that include genetics, metabolism, development, cellular biology, systems biology, structural biology, biophysics, pharmacology, molecular biology, bioinformatics and biochemistry. While these subspecialties are clearly diverse, our faculty collaboratively leverages these areas toward the common goal of understanding cardiovascular disease from the gene all the way up to integrated organism function (systems biology). This diverse array of subspecialties provides a truly unique training environment that few centers can match. Another critical aspect of our training program is our steadfast commitment to a superior and nurturing training environment for our predoctoral trainees, postdoctoral trainees and clinician-scientists. Our training faculty are uniformly committed to monitoring our personnel for success in every way possible, to not only ensure their future placement in the academic ranks but to also build a stronger cardiovascular community around the country. The current National Institutes of Health-sponsored Research and Training in Cardiovascular Biology was instituted in 1978 by Arnold Schwartz, MD, PhD. This program has trained more than 120 scientists, who have pursued independent research careers and are holding prominent scientific positions worldwide. Our trainees have been distinguished as chairs of basic science departments, directors of centers or pharmaceutical companies, clinical directors and tenured faculty members in academic research. The overall emphasis continues to focus on integrative training and well-rounded knowledge of the fundamentals in biochemical, molecular, physiological and pharmacological underpinnings of cardiovascular disease. Dr. Schwartz has been a constant guiding force since the program was established. The University of Cincinnati, with Cincinnati Children's, has also developed a reputation as a leading center for the generation and analysis of genetically modified mouse models for interrogation of gene-disease relationships in the heart. This theme has been expanded to incorporate molecular genomics, proteomics and bioinformatics, as we continue to be among the leaders in the nation in molecular pathway analysis associated with single gene manipulations in the hearts of mice. Most faculty and trainees are using these approaches, but they are also well-versed in many other aspects of cardiovascular science, including excellence in basic physiology, pharmacology, biochemistry, structural biology and molecular biology. Thus, we are a rare conglomeration of faculty in which all aspects of cardiovascular biology are practiced, starting with cutting-edge molecular and genetic approaches, spanning more traditional cellular and whole animal approaches to build an integrated network of functional and disease-relevant data and extending to translational research incorporating cell therapy. | cardiovascular disease, heart, mouse model, cardiovascular system | has parent organization: University of Cincinnati College of Medicine; Ohio; USA | NIH | nif-0000-02100 | SCR_003860 | University of Cincinnati Research Training in Cardiovascular Biology | 2026-02-14 02:00:37 | 0 | |||||||
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NeuroWiki Resource Report Resource Website |
NeuroWiki (RRID:SCR_004066) | NeuroWiki | curriculum material, data or information resource, source code, software resource, narrative resource, training material |
Curriculum materials for an Introduction to Neurobiology course for undergraduate and graduate students. The course focuses on the analysis of neurons and neural circuits for behavior using the fundamental principles of neuroscience. From the online course syllabus, the 24 units that make up the course may be directly accessed. Each unit contains a reading, links to at least one simulation, and a problem set. A list of all available simulations can be found here: https://neurowiki.case.edu/wiki/Simulations. * 25 simulations are written in JavaScript and will run in any browser. Source code: https://github.com/CWRUChielLab/JSNeuroSim * Pre-compiled executables (Windows, Mac, Linux) are available for 1 desktop simulation, the Nernst Potential Simulator. Source code: https://github.com/CWRUChielLab/Nernst Structure of the Course * Solving problems based on simulations of neuronal components, neurons, and simple circuits to understand how they work. * For advanced students, writing a neuroscience Wikipedia article, critical review, or grant, in stages. |
simulation, neuron, neural circuit, neurobiology, neuroscience | has parent organization: Case Western Reserve University; Ohio; USA | Case Western Reserve University; Ohio; USA ; Active Learning Fellowship ; NIH ; Graduate Assistance in Areas of National Need |
Text:, Creative Commons Attribution-NonCommercial-ShareAlike License, 4.0 International, Nernst Potential Simulator:, GNU General Public License, v3, JavaScript simulations:, GNU Affero General Public License, v3 | nlx_158502 | SCR_004066 | 2026-02-14 02:00:56 | 0 | |||||||
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PathCase Pathways Database System Resource Report Resource Website |
PathCase Pathways Database System (RRID:SCR_001835) | data visualization software, data processing software, data analysis service, analysis service resource, data storage software, data or information resource, production service resource, data analysis software, service resource, software application, software resource, database | An integrated software system for storing, managing, analyzing, and querying biological pathways at different levels of genetic, molecular, biochemical and organismal detail. The system contains a pathways database and associated tools to store, compare, query, and visualize metabolic pathways. The aim is to develop an integrated database and the associated tools to support computational analysis and visualization of biochemical pathways. At the computational level, PathCase allows users to visualize pathways in multiple abstraction levels, and to pose predetermined and ad hoc queries using a graphical user interface. Pathways are represented as graphs, and implemented as a relational database. The available functional annotations include the identity of the substrate(s), product(s), cofactors, activators, inhibitors, enzymes or other processing molecules, GO-categories of enzymes (as well as GO hierarchy visualizations two-way-linked to PathCase enzymes), EC number information and the associated links, and synonyms and encoding genes of gene products. | pathway analysis software, pathway analysis, pathway, metabolic, systems function, behavior, visualize pathway, web interface, integrated | NSF DBI 0218061; NSF DBI 0743705; NSF DBI 0849956; NSF CRI 0551603; NIH GM088823 |
PMID:18728044 | THIS RESOURCE IS NO LONGER IN SERVICE | nif-0000-20885, SCR_002104, nif-0000-10398 | http://nashua.cwru.edu/pathways/ | SCR_001835 | PathCase - Metabolic Pathway Database System, PathCase | 2026-02-14 02:00:19 | 0 | ||||||
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Scripps Research Institute Resource Report Resource Website 1+ mentions |
Scripps Research Institute (RRID:SCR_001907) | TSRI | institution | Nonprofit American medical research facility that focuses on research and education in the biomedical sciences. Headquartered in San Diego, California with a sister facility in Jupiter, Florida, the institute has laboratories employing scientists, technicians, graduate students, and administrative and other staff, making it the largest private, non-profit biomedical research organization in the United States and among the largest in the world. | institution, American, medical, research, education, biomedical, private, organization |
uses: DIRECT2experts is related to: Clinical and Translational Science Awards Consortium is related to: The Pancreatic Beta-Cell Consortium is parent organization of: piCALL is parent organization of: GeneChip Operating Software is parent organization of: TSRI-Yates Lab is parent organization of: BioGPS: The Gene Portal Hub is parent organization of: METLIN is parent organization of: AutoDock Vina is parent organization of: ViReMa is parent organization of: Autopack is parent organization of: Integrative Neuroscience Initiative on Alcoholism is parent organization of: Joint Center for Structural Genomics is parent organization of: Functional Glycomics Research is parent organization of: VIPERdb is parent organization of: GOEx - Gene Ontology Explorer is parent organization of: VIPERdb is parent organization of: Zinc Finger Tools is parent organization of: XCMS is parent organization of: Chemoproteomic identification and therapeutic validation of proteins of metabolic significance is parent organization of: Leginon is parent organization of: outbreak.info is parent organization of: Scripps Research Institute Florida Cell Based High Throughput Screening Core Facility |
NIH | THIS RESOURCE IS NO LONGER IN SERVICE | grid.214007.0, ISNI: 122199231, Wikidata: Q793867, nif-0000-10475 | https://ror.org/02dxx6824 | SCR_001907 | The Scripps Research Institute, Scripps Research | 2026-02-14 02:00:14 | 1 | |||||
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NIH VideoCasting Resource Report Resource Website 1+ mentions |
NIH VideoCasting (RRID:SCR_001885) | VideoCast | data or information resource, podcast, narrative resource, video resource | VideoCasting of special NIH events, seminars, conferences, meetings and lectures available to viewers on the NIH network and the Internet from the VideoCast web site. VideoCasting is the method of electronically streaming digitally encoded video and audio data from a server to a client. VideoCast is often referred to as streaming video. Streaming files are not downloaded, but rather are broadcast in a manner similar to television broadcasts. The videos are processed by a compression program into a streaming format and delivered in a staggered fashion to minimize impact upon the network and maximize the experience of the content for the viewer. When users request a streaming file they will receive an initial burst of data after a short delay (file latency). While content is being viewed, the streaming server machine and software continues to stream data in such a manner that the viewer experiences no break in the content. CIT can broadcast your seminar, conference or meeting live to a world-wide audience over the Internet as a real-time streaming video. The event can be recorded and made available for viewers to watch at their convenience as an on-demand video or a downloadable podcast. CIT can also broadcast NIH-only or HHS-only content. | event, seminar, conference, meeting, lecture, multimedia |
is used by: NIF Data Federation is used by: Integrated Videos has parent organization: National Institutes of Health |
NIH | Public, The community can contribute to this resource | nif-0000-10454 | SCR_001885 | NIH VideoCasts, NIH VideoCasting and Podcasting, NIH VideoCasting Podcasting, NIH VideoCast, NIH Videos | 2026-02-14 02:00:13 | 2 | ||||||
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Consed Resource Report Resource Website 500+ mentions |
Consed (RRID:SCR_005650) | Consed | software resource | A graphical tool for sequence finishing (BAM File Viewer, Assembly Editor, Autofinish, Autoreport, Autoedit, and Align Reads To Reference Sequence) | next-generation sequencing, graphical editor, linux, macosx, solaris, c++ |
is listed by: OMICtools has parent organization: University of Washington; Seattle; USA |
NIH ; NHGRI R01HG005710 |
PMID:23995391 PMID:9521923 |
Free for academic use, Free for non-profit use, Commercial license | OMICS_00879 | SCR_005650 | 2026-02-14 02:01:08 | 595 | ||||||
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WebArrayDB Resource Report Resource Website 1+ mentions |
WebArrayDB (RRID:SCR_005577) | WebArrayDB | data repository, storage service resource, data analysis service, analysis service resource, data or information resource, production service resource, service resource, software resource, database | An open source integrated microarray database and analysis suite that features convenient uploading of data for storage in a MIAME (Minimal Information about a Microarray Experiment) compliant fashion. It allows data to be mined with a large variety of R-based tools, including data analysis across multiple platforms. Different methods for probe alignment, normalization and statistical analysis are included to account for systematic bias. Student's t-test, moderated t-tests, non-parametric tests and analysis of variance or covariance (ANOVA/ANCOVA) are among the choices of algorithms for differential analysis of data. Users also have the flexibility to define new factors and create new analysis models to fit complex experimental designs. All data can be queried or browsed through a web browser. The computations can be performed in parallel on symmetric multiprocessing (SMP) systems or Linux clusters. | is listed by: OMICtools | Prostate Cancer Foundation ; Mary Kay Ash Foundation ; NIH ; NIAI R01AI034829; NIAI R01AI052237; NCI R01CA68822; NCI U01CA114810 |
PMID:19602526 | Open source, Account required, The software package is available for the use on a public web server or can be downloaded | OMICS_00782 | SCR_005577 | 2026-02-14 02:01:09 | 8 | |||||||
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NYU Bioinformatics Group Resource Report Resource Website 1+ mentions |
NYU Bioinformatics Group (RRID:SCR_005697) | NYU Bioinformatics Lab | laboratory portal, data or information resource, organization portal, portal | NYU Bioinformatics group applies algorithmic, statistical, and mathematical techniques to solve problems of interest to biology, biotechnology and biomedicine. The group focuses on bioinformatics, computational biology and systems biology with many active projects in areas ranging from single molecules to entire populations: Analysis of Single-Molecule/Single-Cell Data, SPM-based Transcriptomic Profiling, Whole-Genome Haplotype Sequencing using SMASH (Single Molecule Approaches to Haplotype Sequencing), SUTTA (Scoring and Unfolding Trimmed Tree Assembler) assembly algorithm, Analysis of Spatio-Temporal Data, Model Checking and Model Building for Systems Biology, GOALIE-based Phenomenological Models and their Verification, Causality Analysis, Causal Models and their Verification, Analysis of EHR (Electronic Health Record Data) and Disease Models (e.g., Chronic Fatigue Syndrome, Congestive Heart Failure, Deep Vein Thrombosis, etc.), Models of Cancer, Applications to Pancreatic Cancer, Polymorphisms and Biomarkers, Strategies for Group Testing, Epidemiological and Bio-Warfare Models, Planning with Large Agent Networks against Catastrophes (PLAN C), Population Genomics, and Genome Wide Association Studies (GWAS). The group has received its funding from Air Force, Army, CCPR, DARPA, NIH, NIST, NSF, NYSTAR, etc. and various other governmental and commercial entities. Currently, the group is part of an NSF funded Expedition in Computing project (CMACS: Center for Modeling and Analysis of Complex Systems at CMU) and collaborates widely, both nationally and internationally. The group is highly multi-disciplinary, attracting researchers and students from mathematics, statistics, computer science, and biology who team up with physicians, physicists, and chemists as well as professionals in their own disciplines. This group is led by Prof. Bud Mishra, a professor of computer science and mathematics at NYU''s Courant Institute of Mathematical Sciences. |
has parent organization: New York University; New York; USA is parent organization of: GOALIE |
U.S. Air Force ; U.S. Army ; CCPR ; DARPA ; NIH ; NIST ; NSF ; NYSTAR |
nlx_149146 | http://bioinformatics.nyu.edu/wordpress/ | SCR_005697 | NYU Bioinformatics Lab - Courant Institute of Mathematical Sciences | 2026-02-14 02:00:57 | 1 | |||||||
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Childrens Hospital Oakland Research Institute Resource Report Resource Website 10+ mentions |
Childrens Hospital Oakland Research Institute (RRID:SCR_005582) | CHORI | data or information resource, organization portal, portal, training resource | CHORI is the internationally renowned biomedical research institute of Children''s Hospital and Research Center at Oakland. With world-class scientists and research centers known both nationally and internationally in multiple fields, CHORI is 5th in the nation for National Institutes of Health pediatric research funding. Bridging basic science and clinical research in the treatment and prevention of human disease, CHORI is a leader in translational research, providing cures for blood diseases, developing new vaccines for infectious diseases, and discovering new treatment protocols for previously fatal or debilitating conditions. Striving to provide the highest standard of excellence and innovation, CHORI brings together a multidisciplinary collaborative of distinguished investigators in six different Centers of Research: The Center for Cancer Research, The Center for Genetics, The Center for Immunobiology & Vaccine Development, The Center for Nutrition & Metabolism, The Center for Prevention of Obesity, Cardiovascular Disease & Diabetes, and The Center for Sickle Cell Disease & Thalassemia. Within these major areas of focus, CHORI pushes the frontiers of science and of excellence beyond their borders. Among the leading biotech enterprises in the Bay Area, CHORI produced 25 patents in the last 5 years alone. In addition to providing world-class research, CHORI is also a teaching institute, offering unique educational opportunities to high school, college, doctoral and post-doctoral students. | pediatric, research, young human, cancer, genetics, immunobiology, vaccine, nutrition, metabolism, obesity, cardiovascular disease, diabetes, sickle cell disease, thalassemia |
is parent organization of: BacPac Resources Center is parent organization of: Knockout Mouse Project Repository |
NIH | nlx_146206 | SCR_005582 | Children''s Hospital Oakland Research Institute, Children''s Hospital Oakland Research Institute (CHORI) | 2026-02-14 02:01:07 | 13 | |||||||
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NA-MIC Kit Resource Report Resource Website |
NA-MIC Kit (RRID:SCR_005616) | NA-MIC Kit | software resource | A free open source software platform consisting of the 3D Slicer application software, a number of tools and toolkits such as VTK and ITK, and a software engineering methodology that enables multiplatform implementations. It also draws on other best practices from the community to support automatic testing for quality assurance. The NA-MIC kit uses a modular approach, where the individual components can be used by themselves or together. The NA-MIC kit is fully-compatible with local installation (behind institutional firewalls) and installation as an internet service. Significant effort has been invested to ensure compatibility with standard file formats and interoperability with a large number of external applications. Users of the NAMIC Kit will typically use a combination of its many modular components. * 3D Slicer is a general purpose application. Biomedical researchers will typically use this software tool to load, view, analyze, process and save image data. Slicer has been implemented to interoperate with many other tools, including XNAT, which is an open source image database. * Slicer modules, which are dynamically loaded by Slicer at run-time, can be used to extend Slicer''''s core functionality including defining graphical user interfaces. Modules are typically used by algorithms and application developers. * Application and algorithms developers may also use NA-MIC Kit toolkits and libraries. For example, the Insight Segmentation and Registration Toolkit ITK can be used to develop slicer modules for medical image analysis. The Visualization Toolkit can be used to process, visualize and graphically interact with data. KWWidgets is a 2D graphical user interface toolset that can be used to build applications. Teem is a library of general purpose command-line tools that are useful for processing data. Finally, those individuals wishing to create and manage complex software, the NAMIC-Kit software process is available as embodied in CMake, CTest, CPack, DART and the various documentation, bug tracking and communication tools. | platform, image analysis, visualization, segmentation, registration |
is related to: 3D Slicer is related to: Insight Segmentation and Registration Toolkit is related to: XNAT - The Extensible Neuroimaging Archive Toolkit has parent organization: National Alliance for Medical Image Computing |
NIH | BSD-style license | nlx_146255 | SCR_005616 | NA-MIC-Kit | 2026-02-14 02:01:09 | 0 | ||||||
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Adaptive Poisson-Boltzmann Solver Resource Report Resource Website 50+ mentions |
Adaptive Poisson-Boltzmann Solver (RRID:SCR_008387) | APBS | software resource | APBS is a software package for modeling biomolecular solvation through solution of the Poisson-Boltzmann equation (PBE), one of the most popular continuum models for describing electrostatic interactions between molecular solutes in salty, aqueous media. APBS was designed to efficiently evaluate electrostatic properties for such simulations for a wide range of length scales to enable the investigation of molecules with tens to millions of atoms. It also provides implicit solvent models of nonpolar solvation which accurately account for both repulsive and attractive solute-solvent interactions. APBS uses FEtk (the Finite Element ToolKit) to solve the Poisson-Boltzmann equation numerically. FEtk is a portable collection of finite element modeling class libraries written in an object-oriented version of C. It is designed to solve general coupled systems of nonlinear partial differential equations using adaptive finite element methods, inexact Newton methods, and algebraic multilevel methods. | software package, modeling, biomolecular, electrostatic, molecular, dynamics, binding energy, equilibrium, protein, ligand, solvation, kinetics, simulation, finite element |
is listed by: 3DVC is related to: Finite Element Toolkit has parent organization: Washington University in St. Louis; Missouri; USA |
IBM/American Chemical Society ; NPACI/San Diego Supercomputer Center ; W. M. Keck Foundation ; National Biomedical Computation Resource ; NSF ; NIH |
nif-0000-30035 | SCR_008387 | 2026-02-14 02:01:33 | 50 | ||||||||
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Wien Center For Alzheimer's Disease and Memory Disorders Resource Report Resource Website |
Wien Center For Alzheimer's Disease and Memory Disorders (RRID:SCR_008755) | portal, data or information resource, research forum portal, disease-related portal, topical portal | A joint program between Mount Sinai Medical Center and the University of Miami Department of Psychiatry that seeks an end to Alzheimer's disease and similar disorders through research, diagnosis, education and treatment. The goals are to improve memory and mental responsiveness of Alzheimer's patients, delay the onset of the disease and, ultimately, find a cure. The Wien Center typically conducts multidisciplinary initiatives utilizing clinical trials. | alzheimer's disease, memory disorder, dementia, clinical, diagnosis, treatment, late adult human |
has parent organization: University of Miami; Florida; USA is parent organization of: Florida Brain Bank |
Aging | NIH | Public | nlx_143957 | SCR_008755 | Wien Center for Alzheimer's Disease and Memory Disorders | 2026-02-14 02:01:45 | 0 | ||||||
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Molecular Libraries Program Resource Report Resource Website 10+ mentions |
Molecular Libraries Program (RRID:SCR_008847) | MLP | portal, analysis service resource, material analysis service, data or information resource, production service resource, organization portal, service resource, topical portal | High throughput screening services to identify small molecules that can be optimized as chemical probes to study the functions of genes, cells, and biochemical pathways, along with medicinal chemistry and informatics. This will lead to new ways to explore the functions of genes and signaling pathways in health and disease. The NIH Molecular Libraries Initiative NIH is designed to discover small molecules that interact with biologically important proteins and pathways and to provide open access to the bioassay and chemical data generated by its research centers. This will lead to new ways to explore the functions of genes and signaling pathways in health and disease. As these HTS Technologies were not previously available to the public sector, many investigators may not be familiar with the components and requirements of high throughput screening. A key challenge is to identify small molecules effective at modulating a given biological process or disease state. The Molecular Libraries Roadmap, through one of its components, the Molecular Libraries Probe Production Centers Network (MLPCN), offers biomedical researchers access to the large-scale screening capacity, along with medicinal chemistry and informatics necessary to identify chemical probes to study the functions of genes, cells, and biochemical pathways. This will lead to new ways to explore the functions of genes and signaling pathways in health and disease. There are two kinds of data that are available to the scientific community through a dedicated database: Chemical Compounds and Bioassay Results (NCBI). Various types of data, including informative records on substances, compound structures, and biologically active properties of small molecules are housed respectively within PubChem''''s three primary databases: PCSubstance, PCCompound, and PCBioAssay. To date, PubChem contains over 11 million substance records, details about approximately 5.5 million unique compound structures with links to bioassay descriptions, relevant literature, references, and assay data points and over 250 bioassays, a good percentage of which were contributed by the pilot phase of the MLP. The deposition will continue during the current MLPCN phase. NIH anticipates that these projects will also facilitate the development of new drugs, by providing early stage chemical compounds that will enable researchers in the public and private sectors to validate new drug targets, which could then move into the drug-development pipeline. This is particularly true for rare diseases, which may not be attractive for development by the private sector. Funding opportunities are available through the site. | molecule, compound, probe, small molecule, high throughput screening, gene, cell, biochemical pathway, drug development, protein, pathway |
is used by: LINCS Information Framework is related to: BARD is related to: NIH Clinical Collection is related to: PubChem has parent organization: National Institutes of Health |
NIH | nlx_146246 | SCR_008847 | Molecular Libraries, Molecular Libraries Initiative | 2026-02-14 02:01:39 | 15 | |||||||
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DataJoint Resource Report Resource Website 10+ mentions |
DataJoint (RRID:SCR_014543) | data management software, software resource, software application | MATLAB and Python 3 high-level programming interface for MySQL databases to support data processing chains in science labs. Specifically designed to provide robust and intuitive data model for scientific data processing chains.Used for scientific data pipelines and workflow management. | programming interface, mysql, data processing chain, data model, MATLAB, Python, workflow management | is used by: DataJoint Elements | NIH U24 NS116470 | DOI:10.1101/031658 | Free, Freely available | SCR_014543 | DataJoint: Data management for science labs | 2026-02-14 02:03:00 | 35 | |||||||
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Caenorhabditis Genetics Center Resource Report Resource Website 1000+ mentions |
Caenorhabditis Genetics Center (RRID:SCR_007341) | CGC | biomaterial supply resource, organism supplier, cell repository, material resource | Center that acquires, maintains, and distributes genetic stocks and information about stocks of the small free-living nematode Caenorhabditis elegans for use by investigators initiating or continuing research on this genetic model organism. A searchable strain database, general information about C. elegans, and links to key Web sites of use to scientists, including WormBase, WormAtlas, and WormBook are available. | non-human animal, caenorhabditis elegans, chromosome, database, model, mutant, nematode, nomenclature, model organism, protein, transgenic, web accessible database, genetic stock, germplasm, genotype, FASEB list |
is used by: NIF Data Federation is listed by: One Mind Biospecimen Bank Listing is related to: C. elegans Gene Knockout Consortium is related to: Expression Patterns for C. elegans promoter GFP fusions has parent organization: University of Minnesota Twin Cities; Minnesota; USA |
NIH OD010440 | nif-0000-00240 | https://orip.nih.gov/comparative-medicine/programs/invertebrate-models http://www.cbs.umn.edu/research/resources/cgc |
http://biosci.umn.edu/CGC/, http://www.cgc.cbs.umn.edu | SCR_007341 | 2026-02-14 02:01:24 | 3842 |
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