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| Resource Name | Proper Citation | Abbreviations | Resource Type |
Description |
Keywords | Resource Relationships | |||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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Pulse Pal Resource Report Resource Website 1+ mentions |
Pulse Pal (RRID:SCR_017203) | instrument resource | Open source pulse train generator that allows users to create and trigger software defined trains of voltage pulses with high temporal precision. Generates precisely timed pulse sequences for use in research involving electrophysiology or psychophysics. | instrument, generator, stimulation, voltage, puls, sequence, electrophysiology, psychophysics | NINDS R01 NS07553; NIMH R01 MH097061; McKnight Foundation |
DOI:10.3389/fneng.2014.00043 | Available for purchase | https://sanworks.io/shop/viewproduct?productID=1102 https://github.com/sanworks/PulsePal https://sites.google.com/site/pulsepalwiki/specifications?authuser=0 |
SCR_017203 | Pulse Pal v2 | 2026-02-07 02:09:53 | 1 | |||||||
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Scope Resource Report Resource Website 10+ mentions |
Scope (RRID:SCR_017454) | software resource, software application | Two photon microscope control software with multi area capabilities. | Two, photon, microscope, control, BRAIN Initiative | is recommended by: BRAIN Initiative | NINDS NS090475 | Free, Available for download, Freely available | SCR_017454 | 2026-02-07 02:14:45 | 15 | |||||||||
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SpinalJ Resource Report Resource Website |
SpinalJ (RRID:SCR_025437) | software resource | Software tool extension to ImageJ for spinal cord. Used for efficient preparation and imaging of whole spinal cord and the absence of 3D reference atlas. | ImageJ, Imaging, imaging of whole spinal cord, spinal cord imaging, |
is used by: BRAIN Initiative Cell Atlas Network is a plug in for: ImageJ |
NINDS R21NS120665; NINDS U19NS104649 |
PMID:34841273 | Free, Freely available, | SCR_025437 | 2026-02-07 02:16:50 | 0 | ||||||||
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NINDS Repository Resource Report Resource Website 1+ mentions |
NINDS Repository (RRID:SCR_004520) | biomaterial supply resource, material resource | Open resource of biological samples (DNA, cell lines, and other biospecimens) and corresponding phenotypic data to promote neurological research. Samples from more than 34,000 unique individuals with cerebrovascular disease, dystonia, epilepsy, Huntington's Disease, motor neuron disease, Parkinsonism, and Tourette Syndrome, as well as controls (population control and unaffected relatives) have been collected. The mission of the NINDS Repository is to provide 1) genetics support for scientists investigating pathogenesis in the central and peripheral nervous systems through submissions and distribution; 2) information support for patients, families, and advocates concerned with the living-side of neurological disease and stroke. | nervous system disorder, neurogenetics, genetic, clinical data, cerebrovascular disease, epilepsy, motor neuron disease, parkinson's disease, parkinsonism, tourette's disorder, normal control, stroke, amyotrophic lateral sclerosis, huntington's disease, dystonia, dementia, neurologically normal, blood, dna, biomarker, plasma, urine, cell line, induced pluripotent stem cell, fibroblast, stem cell, frozen, lymphoblast, biospecimen banking, biospecimen processing, biospecimen distribution, biospecimen, genetics, phenotype, neurological disease |
is listed by: One Mind Biospecimen Bank Listing is listed by: NeuroImaging Tools and Resources Collaboratory (NITRC) is related to: PD-DOC is related to: Parkinson’s Disease Biomarkers Program Data Management Resource (PDBP DMR) has parent organization: Coriell Cell Repositories |
Cerebrovascular disease, Epilepsy, Motor neuron disease, Parkinson's disease, Tourette's Disorder, Normal control, Stroke, Amyotrophic Lateral Sclerosis, Huntington's disease, Dystonia, Dementia, Neurologically normal, Neurological disorder | NINDS ; NIH Blueprint for Neuroscience Research |
Public | nlx_143800 | SCR_004520 | NINDS Human Genetics DNA Cell Line Repository, NINDS Human Genetics DNA and Cell Line Repository, The NINDS Repository, The NINDS Human Genetics Resource Center, The NINDS Human Genetics DNA and Cell Line Repository | 2026-02-07 02:14:17 | 3 | ||||||
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Enhanced and Unified Anatomical Labeling for Common Mouse Brain Atlas Resource Report Resource Website 1+ mentions |
Enhanced and Unified Anatomical Labeling for Common Mouse Brain Atlas (RRID:SCR_019267) | atlas, data or information resource | Website to visualize and share anatomical labels. Franklin and Paxinos (FP) based anatomical labels in Allen Common Coordinate Framework (CCF). Cell type specific transgenic mice and MRI atlas were used to adjust and further segment labels. New segmentations were created in dorsal striatum using cortico-striatal connectivity data. Anatomical labels were digitized based on Allen ontology, and web-interface was created for easy visualization. These labels provide resource to isolate and identify mouse brain anatomical structures. Open source data sharing will facilitate further refinement of anatomical labels and integration of data interpretation within single anatomical platform. | Anatomical labels, Allen Common Coordinate Framework, Franklin and Paxinos labels, MRI atlas, segment labels, transgenic mice, dorsal striatum, cortico-striatal connectivity data, mouse brain anatomical structure |
is used by: BICCN is related to: Allen Institute for Brain Science |
NIMH R01 MH116176; NINDS R01 NS10 8407; Pennsylvania Department of Health ; NIH Office of the Director R24 OD018559 |
PMID:31699990 | Free, Freely available | SCR_019267 | 2026-02-10 09:58:00 | 2 | ||||||||
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Brain Computer Interface 2000 Software Package Resource Report Resource Website 100+ mentions |
Brain Computer Interface 2000 Software Package (RRID:SCR_007346) | software resource, software application, data processing software | BCI2000 is a general-purpose system for brain-computer interface (BCI) and adaptive neurotechnology research. It can also be used for data acquisition, stimulus presentation, and brain monitoring applications. The mission of the BCI2000 project is to facilitate research and applications in the areas described. Their vision is that BCI2000 will become a widely used software tool for diverse areas of real-time biosignal processing. In order to achieve this vision, BCI2000 system is available for free for non-profit research and educational purposes. BCI2000 supports a variety of data acquisition systems, brain signals, and study/feedback paradigms. During operation, BCI2000 stores data in a common format (BCI2000 native or GDF), along with all relevant event markers and information about system configuration. BCI2000 also includes several tools for data import/conversion (e.g., a routine to load BCI2000 data files directly into Matlab) and export facilities into ASCII. BCI2000 also facilitates interactions with other software. For example, Matlab scripts can be executed in real-time from within BCI2000, or BCI2000 filters can be compiled to execute as stand-alone programs. Furthermore, a simple network-based interface allows for interactions with external programs written in any programming language. For example, a robotic arm application that is external to BCI2000 may be controlled in real time based on brain signals processed by BCI2000, or BCI2000 may use and store along with brain signals behavioral-based inputs such as eye-tracker coordinates. Because it is based on a framework whose services can support any BCI implementation, the use of BCI2000 provides maximum benefit to comprehensive research programs that operate multiple BCI2000 installations to collect data for a variety of studies. The most important benefits of the system in such situations are: - A Proven Solution - Facilitates Operation of Research Programs - Facilitates Deployment in Multiple Sites - Cross-Platform and Cross-Compiler Compatibility - Open Resource Sponsors: BCI2000 development is sponsored by NIH/NIBIB R01 and NIH/NINDS U24 grants. Keywords: General, Purpose, Systems, Brain, Computer, Interface, Research, Application, Brain, Diverse, Educational, Laboratory, Software, Network, Signals, Behavioral, Eye, Tracker, |
is listed by: NeuroImaging Tools and Resources Collaboratory (NITRC) has parent organization: National Institutes of Health |
NIBIB R01 EB026439; NINDS U24 NS109103; NIBIB P41 EB018783 |
nif-0000-00251 | http://www.nitrc.org/projects/bci2000 http://www.bci2000.org https://www.neurotechcenter.org/software |
SCR_007346 | BCI2000 | 2026-02-10 09:55:37 | 162 | ||||||||
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TRACULA Resource Report Resource Website 10+ mentions |
TRACULA (RRID:SCR_013152) | TRACULA | software resource, software application, data processing software | Software tool developed for automatically reconstructing a set of major white matter pathways in the brain from diffusion weighted images using probabilistic tractography. This method utilizes prior information on the anatomy of the pathways from a set of training subjects. By incorporating this prior knowledge in the reconstruction procedure, our method obviates the need for manual intervention with the tract solutions at a later stage and thus facilitates the application of tractography to large studies. The trac-all script is used to preprocess raw diffusion data (correcting for eddy current distortion and B0 field inhomogenities), register them to common spaces, model and reconstruct major white matter pathways (included in the atlas) without any manual intervention. trac-all may be used to execute all the above steps or parts of it depending on the dataset and user''''s preference for analyzing diffusion data. Alternatively, scripts exist to execute chunks of each processing pipeline, and individual commands may be run to execute a single processing step. To explore all the options in running trac-all please refer to the trac-all wiki. In order to use this script to reconstruct tracts in Diffusion images, all the subjects in the dataset must have Freesurfer Recons. | tractography, white matter tract, white matter pathway, diffusion weighted image, diffusion magnetic resonance imaging, white matter, brain, reconstruct, diffusion tensor imaging |
is related to: FreeSurfer has parent organization: Harvard Medical School; Massachusetts; USA |
Aging | NIH Blueprint for Neuroscience Research ; Ellison Medical Foundation ; NIBIB EB008129; NIMH U01-MH093765; NCRR P41-RR14075; NCRR U24-RR021382; NIBIB R01-EB006758; NIA R01-AG022381; National Center for Complementary and Alternative Medicine RC1-AT005728; NINDS R01-NS052585; NINDS R21-NS072652; NINDS R01-NS070963 |
PMID:22016733 | nlx_143919 | SCR_013152 | TRACULA - TRActs Constrained by UnderLying Anatomy, TRACULA: TRActs Constrained by UnderLying Anatomy, TRActs Constrained by UnderLying Anatomy | 2026-02-10 09:56:40 | 17 | |||||
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MountainSort Resource Report Resource Website 10+ mentions |
MountainSort (RRID:SCR_017446) | software resource, software application, data processing software | Neurophysiological spike sorting software. | Neurophysiological, spike, sorting, BRAIN Initiative | is recommended by: BRAIN Initiative | NINDS NS090537 | Free, Available for download, Freely available | SCR_017446 | 2026-02-10 09:57:28 | 14 | |||||||||
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UNC Infant 0-1-2 Atlases Resource Report Resource Website 1+ mentions |
UNC Infant 0-1-2 Atlases (RRID:SCR_002569) | UNC Infant 0-1-2 Atlases | atlas, data or information resource | 3 atlases dedicated for neonates, 1-year-olds, and 2-year-olds. Each atlas comprises a set of 3D images made up of the intensity model, tissue probability maps, and anatomical parcellation map. These atlases are constructed with the help of state-of-the-art infant MR segmentation and groupwise registration methods, on a set of longitudinal images acquired from 95 normal infants (56 males and 39 females) at neonate, 1-year-old, and 2-year-old. | analyze, atlas application, linux, macos, microsoft, magnetic resonance, posix/unix-like, infant, pediatric, template, longitudinal, neonate, male, female, mri |
is listed by: NeuroImaging Tools and Resources Collaboratory (NITRC) has parent organization: University of North Carolina at Chapel Hill School of Medicine; North Carolina; USA |
Normal | NIH ; NIBIB EB006733; NIBIB EB008760; NIBIB EB008374; NIBIB EB009634; NIMH MH088520; NIMH MH070890; NIMH MH064065; NINDS NS055754; NICHD HD053000 |
PMID:21533194 | Free, Available for download, Freely available | nlx_155971 | http://www.nitrc.org/projects/pediatricatlas | SCR_002569 | UNC 0-1-2 Infant Atlases | 2026-02-10 09:54:44 | 2 | |||
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Zebrafinch Brain Architecture Project Resource Report Resource Website 1+ mentions |
Zebrafinch Brain Architecture Project (RRID:SCR_004277) | Zebrafinch Brain Architecture Project | atlas, data or information resource | Atlas of high resolution Nissl stained digital images of the brain of the zebra finch, the mainstay of songbird research. The cytoarchitectural high resolution photographs and atlas presented here aim at facilitating electrode placement, connectional studies, and cytoarchitectonic analysis. This initial atlas is not in stereotaxic coordinate space. It is intended to complement the stereotaxic atlases of Akutegawa and Konishi, and that of Nixdorf and Bischof. (Akutagawa E. and Konishi M., stereotaxic atalas of the brain of zebra finch, unpublished. and Nixdorf-Bergweiler B. E. and Bischof H. J., A Stereotaxic Atlas of the Brain Of the Zebra Finch, Taeniopygia Guttata, http://www.ncbi.nlm.nih.gov.) The zebra finch has proven to be the most widely used model organism for the study of the neurological and behavioral development of birdsong. A unique strength of this research area is its integrative nature, encompassing field studies and ethologically grounded behavioral biology, as well as neurophysiological and molecular levels of analysis. The availability of dimensionally accurate and detailed atlases and photographs of the brain of male and female animals, as well as of the brain during development, can be expected to play an important role in this research program. Traditionally, atlases for the zebra finch brain have only been available in printed format, with the limitation of low image resolution of the cell stained sections. The advantages of a digital atlas over a traditional paper-based atlas are three-fold. * The digital atlas can be viewed at multiple resolutions. At low magnification, it provides an overview of brain sections and regions, while at higher magnification, it shows exquisite details of the cytoarchitectural structure. * It allows digital re-slicing of the brain. The original photographs of brain were taken in certain selected planes of section. However, the brains are seldom sliced in exactly the same plane in real experiments. Re-slicing provides a useful atlas in user-chosen planes, which are otherwise unavailable in the paper-based version. * It can be made available on the internet. High resolution histological datasets can be independently evaluated in light of new experimental anatomical, physiological and molecular studies. | nissl stain, sagittal, horizontal plane, transverse plane, myelin stain, brain | has parent organization: Brain Architecture Project | W. M. Keck Foundation ; Crick-Clay Professorship ; NINDS NS50436; NIGMS R24 GM092842 |
nlx_143663 | SCR_004277 | 2026-02-10 09:55:03 | 4 | ||||||||
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IonChannelLab Resource Report Resource Website 1+ mentions |
IonChannelLab (RRID:SCR_014762) | simulation software, software resource, software application | Software for kinetic modeling of ion channels which operates on Windows XP or Windows Vista. | simulation software, kinetic modeling, ion channel, electrophysiology | CONACyT Mexico 79897; CONACyT Mexico 105457; NINDS R01 NS032337 |
Available for download | SCR_014762 | 2026-02-10 09:56:56 | 5 | ||||||||||
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fanDTasia Java Applet: DT-MRI Processing Resource Report Resource Website 1+ mentions |
fanDTasia Java Applet: DT-MRI Processing (RRID:SCR_009624) | fdt | image processing software, software resource, software application, data processing software | A Java applet tool for DT-MRI processing. It opens Diffusion-Weighted MRI datasets from user's computer and performs very efficient tensor field estimation using parallel threaded processing on user's browser. No installation is required. It runs on any operating system that supports Java (Windows, Mac, Linux,...). The estimated tensor field is guaranteed to be positive definite second order or higher order and is saved in user's local disc. MATLAB functions are also provided to open the tensor fields for your convenience in case you need to perform further processing. The fanDTasia Java applet provides also vector field visualization for 2nd and 4th-order tensors, as well as calculation of various anisotropic maps. Another useful feature is 3D fiber tracking (DTI-based) which is also shown using 3d graphics on the user's browser. | magnetic resonance, dti, diffusion-weighted mri |
is listed by: NeuroImaging Tools and Resources Collaboratory (NITRC) has parent organization: University of Florida; Florida; USA |
NIBIB EB007082; NINDS NS066340 |
Non-Commercial Software License Agreement, Https://www.nitrc.org/include/glossary.php#589, Non-commercial | nlx_155849 | http://www.nitrc.org/projects/fandtasia | SCR_009624 | FanDTasia | 2026-02-10 09:56:00 | 2 | |||||
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3D Developmental Mouse Brain Common Coordinate Framework Resource Report Resource Website 1+ mentions |
3D Developmental Mouse Brain Common Coordinate Framework (RRID:SCR_025544) | atlas, data or information resource | Open access multimodal 3D atlases of developing mouse brain that can be used to integrate mouse brain imaging data for visualization, education, cell census mapping, and more. Atlas ages include E11.5, E13.5, E15.5, E18.5, P4, P14, and P56. Web platform can be utilized to visualize and explore the atlas in 3D. Downloadable atlas can be used to align multimodal mouse brain data. Morphologically averaged symmetric template brains serve as the basis reference space and coordinate system. Anatomical labels are manually drawn in 3D based on the prosomeric model. For additional references, the P56 template includes templates and annotations from the aligned Allen Mouse Brain Common Coordinate Framework (Allen CCFv3) and aligned Molecular Atlas of the Adult Mouse Brain. | multimodal 3D atlases, developing mouse brain, mouse brain data, |
is related to: Allen Mouse Brain Common Coordinate Framework is organization facet of: BRAIN Initiative |
NIMH RF1MH12460501; NINDS R01NS108407; NIMH R01MH116176; NIBIB R01EB031722 |
PMID:37745386 | Free, Freely available | SCR_025544 | DevCCF | 2026-02-10 09:59:06 | 2 | |||||||
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ezBIDS Resource Report Resource Website |
ezBIDS (RRID:SCR_025563) | web application, software resource | Web-based BIDS conversion tool to convert neuroimaging data and associated metadata to BIDS standard. Guided standardization of neuroimaging data interoperable with major data archives and platforms. | Guided standardization, neuroimaging data, Brain Imaging Data Structure, BIDS conversion tool, convert neuroimaging data, associated metadata, interoperable, BIDS standard, | NINDS UM1NS132207; BRAIN CONNECTS ; NIBIB R01EB029272; NIBIB R01EB030896; NSF ; Kavli Foundation ; Wellcome Trust ; NIMH R01MH133701; Spanish Government |
PMID:38332144 | Free, Freely available | https://brainlife.io/ezbids/ |
SCR_025563 | ez Brain Imaging Data Structure | 2026-02-10 09:58:59 | 0 | |||||||
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SenseLab Resource Report Resource Website 10+ mentions |
SenseLab (RRID:SCR_007276) | SenseLab | organization portal, portal, data or information resource, database | The SenseLab Project is a long-term effort to build integrated, multidisciplinary models of neurons and neural systems. It was founded in 1993 as part of the original Human Brain Project, which began the development of neuroinformatics tools in support of neuroscience research. It is now part of the Neuroscience Information Framework (NIF) and the International Neuroinformatics Coordinating Facility (INCF). The SenseLab project involves novel informatics approaches to constructing databases and database tools for collecting and analyzing neuroscience information, using the olfactory system as a model, with extension to other brain systems. SenseLab contains seven related databases that support experimental and theoretical research on the membrane properties: CellPropDB, NeuronDB, ModelDB, ORDB, OdorDB, OdorMapDB, BrainPharmA pilot Web portal that successfully integrates multidisciplinary neurocience data. | neuron, model, olfactory system, brain, disease, neuronal, olfactory |
is related to: Neuroscience Information Framework is related to: International Neuroinformatics Coordinating Facility has parent organization: Yale University; Connecticut; USA is parent organization of: SimToolDB |
Aging | Human Brain Project ; Multidisciplinary University Research Initiative ; NIMH ; NIA ; NICD ; NINDS ; NIDCD RO1 DC 009977 |
nif-0000-00017 | SCR_007276 | SenseLab Project, The SenseLab Project | 2026-02-11 10:57:33 | 41 | ||||||
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TrakEM2 Resource Report Resource Website 100+ mentions |
TrakEM2 (RRID:SCR_008954) | TrakEM2 | software resource, software application, image analysis software, data processing software | An ImageJ plugin for morphological data mining, three-dimensional modeling and image stitching, registration, editing and annotation. Two independent modalities exist: either XML-based projects, working directly with the file system, or database-based projects, working on top of a local or remote PostgreSQL database. What can you do with it? * Semantic segmentation editor: order segmentations in tree hierarchies, whose template is exportable for reuse in other, comparable projects. * Model, visualize and export 3D. * Work from your laptop on your huge, remote image storage. * Work with an endless number of images, limited only by the hard drive capacity. Dozens of formats supported thanks to LOCI Bioformats and ImageJ. * Import stacks and even entire grids (montages) of images, automatically stitch them together and homogenize their histograms for best montaging quality. * Add layers conveniently. A layer represents, for example, one 50 nm section (for TEM) or a confocal section. Each layer has its own Z coordinate and thickness, and contains images, labels, areas, nodes of 3d skeletons, profiles... * Insert layer sets into layers: so your electron microscopy serial sections can live inside your optical microscopy sections. * Run any ImageJ plugin on any image. * Measure everything: areas, volumes, pixel intensities, etc. using both built-in data structures and segmentation types, and standard ImageJ ROIs. And with double dissectors! * Visualize RGB color channels changing the opacity of each on the fly, non-destructively. * Annotate images non-destructively with floating text labels, which you can rotate/scale on the fly and display in any color. * Montage/register/stitch/blend images manually with transparencies, semiautomatically, or fully automatically within and across sections, with translation, rigid, similarity and affine models with automatically extracted SIFT features. * Correct the lens distortion present in the images, like those generated in transmission electron microscopy. * Add alpha masks to images using ROIs, for example to split images in two or more parts, or to remove the borders of an image or collection of images. * Model neuronal arbors with 3D skeletons (with areas or radiuses), and synapses with connectors. * Undo all steps. And much more... | java, imagej plugin, neuronal circuit, reconstruction, electron microscopy, optical image volume, arbor, synapse, image, align, register, FASEB list |
is listed by: 3DVC is related to: Segmented ssTEM stack of neural tissue is related to: ImageJ has parent organization: University of Zurich; Zurich; Switzerland |
Swiss National Science Foundation 31003A_132969; NINDS 1-R01 NS054814-05 |
PMID:22723842 PMID:20957184 |
If your work uses TrakEM2 or its associated image registration libraries, Please cite. | nlx_151924 | SCR_008954 | 2026-02-11 10:57:57 | 330 | ||||||
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DRIFTER Resource Report Resource Website 10+ mentions |
DRIFTER (RRID:SCR_014937) | software resource, software application, image analysis software, data processing software | Model based Bayesian method for eliminating physiological noise from fMRI data. This algorithm uses image voxel analysis to isolate the cardiac and respiratory noise from the relevant data. | bayesian, physiological noise, fMRI, algorithm, cardiac, respiratory, image anaylsis, bold signal | has parent organization: Aalto University; Espoo; Finland | NICHD R01HD040712; NINDS R01NS037462; NINDS R01NS048279; NCR P41RR014075; NIMH R01MH083744; NIDCD R21DC010060; NIBIB R21EB007298; National Science Council Taiwan NSC 98-2320-B-002-004-MY3; National Science Council Taiwan NSC 100-2325-B-002-046; National Health Research Institute Taiwan NHRI-EX100-9715EC; Academy of Finland 124698; Academy of Finland 125349; Academy of Finland 127624; Academy of Finland 129670; Academy of Finland 218054; Academy of Finland 218248 |
PMID:22281675 | Free, Available for download, Acknowledgement requested | SCR_014937 | DRIFTER Toolbox | 2026-02-11 10:59:00 | 28 | |||||||
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CloudReg Resource Report Resource Website |
CloudReg (RRID:SCR_022795) | software resource, software application, image analysis software, data processing software | Software automated, terascale, cloud based image analysis pipeline for preprocessing and cross modal, nonlinear registration between volumetric datasets with artifacts. Automatic terabyte scale cross modal brain volume registration. | brain volume, nonlinear registration, automatic terabyte scale, cross modal brain volume registration, image analysis pipeline, volumetric datasets with artifacts | is used by: BICCN | NIA R01 AG066184; NSF EEC 1707298; NIMH U19MH114821; Kavli Neuroscience Discovery Institute ; Karen Toffler Charitable Trust ; NIMH R01 MH099647; NIMH K08MH113039; NIDA 1K99DA050662; AP Giannini Foundation ; NINDS K99 NS116122; NIA P01AG009973; Johns Hopkins University Kavli Neuroscience Discovery Institute Postdoctoral Fellowship ; Microsoft Research |
PMID:34253927 | Free, Available for download, Freely available | https://github.com/neurodata/CloudReg/ | SCR_022795 | 2026-02-11 11:00:36 | 0 | |||||||
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GenePaint Resource Report Resource Website 100+ mentions |
GenePaint (RRID:SCR_003015) | GenePaint.org | expression atlas, data or information resource, database, reference atlas, atlas | Digital atlas of gene expression patterns in developing and adult mouse. Several reference atlases are also available through this site. Expression patterns are determined by non-radioactive in situ hybridization on serial tissue sections. Sections are available from several developmental ages: E10.5, E14.5 (whole embryos), E15.5, P7 and P56 (brains only). To retrieve expression patterns, search by gene name, site of expression, GenBank accession number or sequence homology. For viewing expression patterns, GenePaint.org features virtual microscope tool that enables zooming into images down to cellular resolution. | gene expression, adult mouse, annotated, c57bl6, mouse, mouse embryo, mrna, non radioactive in situ hybridization, light microscopy, molecular neuroanatomy resource, in situ hybridization, embryonic, postnatal, adult, brain, head, annotation, rna probe, sequence, anatomical structure, FASEB list |
has parent organization: Max Planck Institute for Biophysical Chemistry; Gottingen; Germany is parent organization of: GenePaint E15 Atlas is parent organization of: GenePaint P7 Atlas is parent organization of: GenePaint P56 Mouse Atlas is parent organization of: GenePaint Interactive Anatomy Atlas |
Burroughs Wellcome Fund ; European Union ; Max Planck Society ; Merck Genome Research Institute ; Romansky Endowment ; NINDS ; BMBF |
PMID:14681479 PMID:22936000 |
nif-0000-00009, SCR_017526 | SCR_003015 | Atlas of Gene Expression Patterns in Mouse Embryo | 2026-02-11 10:56:35 | 161 | ||||||
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L-Measure Resource Report Resource Website 10+ mentions |
L-Measure (RRID:SCR_003487) | LM | software application, image analysis software, software resource, data processing software, image processing software, service resource | A freely available software tool available for the Windows and Linux platform, as well as the Online version Applet, for the analysis, comparison and search of digital reconstructions of neuronal morphologies. For the quantitative characterization of neuronal morphology, LM computes a large number of neuroanatomical parameters from 3D digital reconstruction files starting from and combining a set of core metrics. After more than six years of development and use in the neuroscience community, LM enables the execution of commonly adopted analyses as well as of more advanced functions, including: (i) extraction of basic morphological parameters, (ii) computation of frequency distributions, (iii) measurements from user-specified subregions of the neuronal arbors, (iv) statistical comparison between two groups of cells and (v) filtered selections and searches from collections of neurons based on any Boolean combination of the available morphometric measures. These functionalities are easily accessed and deployed through a user-friendly graphical interface and typically execute within few minutes on a set of 20 neurons. The tool is available for either online use on any Java-enabled browser and platform or may be downloaded for local execution under Windows and Linux. | neuronal morphology, neuroinformatics, branching analysis, digital reconstruction, analysis, comparison, bio.tools |
is listed by: 3DVC is listed by: NeuroImaging Tools and Resources Collaboratory (NITRC) is listed by: Debian is listed by: bio.tools has parent organization: Computational Neuroanatomy Group |
Human Brain Project ; NINDS R01 NS39600 |
PMID:18451794 | Public | nif-0000-00003, biotools:l-measure | http://www.nitrc.org/projects/lmeasure https://bio.tools/l-measure |
SCR_003487 | 2026-02-11 10:56:44 | 30 |
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