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SciCrunch Registry is a curated repository of scientific resources, with a focus on biomedical resources, including tools, databases, and core facilities - visit SciCrunch to register your resource.
An institute whose mission is to translate laboratory discoveries into prevention, treatment and cures for Alzheimer's, ALS, Huntington's, Parkinson's and other neurodegenerative diseases. MIND seeks to accelerate therapies that lessen the toll of disease on patients and families. Researchers of the institute collaborate, strategize, and share technology to find treatment for these diseases. As promising leads are developed in one area, they are tested in the other neurodegenerative disorders.
Proper citation: MassGeneral Institute for Neurodegenerative Disease (RRID:SCR_008746) Copy
Database of blood-brain barrier properties of peptides including structure, method, responses, physicochemical properties and related literature. The database is linked to a manuscript entitled Brainpeps: the blood-brain barrier peptide database, in which the BBB methods and responses are clarified and correlated to each other. Data may be submitted for addition to the database.
Proper citation: BrainPeps (RRID:SCR_008851) Copy
http://www.nitrc.org/projects/dots/
A fast, scalable tool developed at the Johns Hopkins University to automatically segment the major anatomical fiber tracts within the human brain from clinical quality diffusion tensor MR imaging. With an atlas-based Markov Random Field representation, DOTS directly estimates the tract probabilities, bypassing tractography and associated issues. Overlapping and crossing fibers are modeled and DOTS can also handle white matter lesions. DOTS is released as a plug-in for the MIPAV software package and as a module for the JIST pipeline environment. They are therefore cross-platform and compatible with a wide variety of file formats.
Proper citation: DOTS WM tract segmentation (RRID:SCR_009459) Copy
http://alzheimer.ucdavis.edu/research/resources.php#tissue
THIS RESOURCE IS NO LONGER IN SERVICE, documented August 22, 2016. Support research in Alzheimer's disease (AD) offering pilot grants, recruitment of research subjects, access to database, tissue samples, and statistical and research study design consultation for investigators. The scientific effort of the program seeks to: promote research directed at understanding factors that influence the expression and progression of Alzheimer's disease; develop and maintain cohorts of carefully diagnosed and well characterized research subjects available for research studies on Alzheimer's disease and dementia; provide support to investigators in subject recruitment, clinical research, experimental design, and statistical analysis of data; and maintain a variety of samples (brain, DNA, serum) and an extensive electronic database suitable for developing new research and supporting existing programs.
Proper citation: UC Davis Alzheimers Disease Center - Resources (RRID:SCR_010699) Copy
THIS RESOURCE IS NO LONGER IN SERVICE, documented on December 6, 2012. Connectome Wiki is a knowledge base for macro- and mesoscale brain region and brain structural connectivity information across species. Employing modern semantic wiki technology, it serves as collaborative platform as well. What can I get? * Brain Regions: Plenty of information, including links to relevant literature and much more. * Brain Connections: Well established neuronal connections based mainly on neuronal tracer studies from the literature. * Abbreviations: Look up abbreviations and corresponding English and Latin names * Partition Schemes: Foundational and more partitions with their corresponding delineation criteria and protocols. * Species: Information about different species is available, using their binomial name as identifier. * External: Enhance the ConnectomeViewer with Volume-To-Ontology mappings. * Data Source: You can download the raw data in RDF or JSON. How can I contribute? If your research is in particular brain regions, or model organisms not yet registered, feel free to act as domain expert and add your knowledge. If you do any tracer studies, add findings with appropriate published papers. Incrementally building a mesoscale skeleton wiring diagram. Complete anything that is missing. See also PapersToAdd. Register your own partition scheme and link it semantically against known schemes. Adding brain region pages for your particular research organisms. Use ConnectomeWiki as knowledge backend for your application concerned with gross neuroanatomy. The goals of this wiki are: * A collaborative platform to collect, collate, manage and disseminate mesoscale nervous system region and connectivity information across various species * Authority for Brain Region Abbreviations * Representation of Brain Region Homologies * Interrelation of Brain Partition Schemes * Information source for the ConnectomeViewer application
Proper citation: Connectome Wiki (RRID:SCR_002675) Copy
http://www.wellesley.edu/Neuroscience/
Neuroscience was implemented as a new interdisciplinary major in 1999, replacing the Psychobiology Program and providing a base of experiences in biology, chemistry and psychology. Our students benefit from being able to work in small classes and to experience investigative lab experiences even in their introductory courses. Wellesley's neuroscience majors graduate with a liberal arts background coupled with sufficient concentration in this specialized field to be competitive among students coming from exclusively research-oriented institutions. The best proofs of the success of this approach are its products: * 60% of our graduates proceed to medical school; * 15% of our graduates continue on with graduate work in neuroscience, psychology, or neuropsychology; * 10% of our graduates pursue careers that intersect with neuroscience - for example, patent law or work in the biotech industry. Neuroscience is the study of the structure and function of neurons and how they are assembled to produce behaviors. This topic uses a multidisciplinary approach that extends from the molecular, through the cellular, and to the behavioral level.
Proper citation: Wellesley College Neuroscience (RRID:SCR_002734) Copy
Core facility that provides access to psychiatrically characterized post-mortem brain specimens, state-of-the-art equipment, cutting-edge technologies and the technical advice of highly trained faculty members who serve as Core Directors. The sophisticated imaging systems and biotechnologically advanced molecular core resources are provided on a shared-use basis to CPN and UMMC researchers. The CPN Research Resources Cores include the Human Brain Collection Core, Animal Core, Imaging Core, Molecular Biology Core, and Information Technologies Core.
Proper citation: UMMC Center for Psychiatric Neuroscience Labs and Facilities (RRID:SCR_002688) Copy
Gene expression data and maps of mouse central nervous system. Gene expression atlas of developing adult central nervous system in mouse, using in situ hybridization and transgenic mouse techniques. Collection of pictorial gene expression maps of brain and spinal cord of mouse. Provides tools to catalog, map, and electrophysiologically record individual cells. Application of Cre recombinase technologies allows for cell-specific gene manipulation. Transgenic mice created by this project are available to scientific community.
Proper citation: Gene Expression Nervous System Atlas (RRID:SCR_002721) Copy
http://www.ndgo.net/sfn/nerve/
THIS RESOURCE IS NO LONGER IN SERVICE, documented on July 17, 2013. Society for Neuroscience (SfN) provides this Web site, Neuroscience Education Resources Virtual Encycloportal (NERVE), to advance neuroscience teaching and educational efforts. SfN is a nonprofit association of more than 38,000 researchers and professionals, believes K-12 educators and vital partners for engaging the next generation of researchers. NERVE gives access to information and tools for teaching about the nervous system and related health issues. The goal of NERVE is to provide a gateway to credible information from government, nonprofit and other respected sources. Society scientists and educators have reviewed information for appropriateness but responsibility for content remains that of the originating author or organizations. NERVE gives access to information and tools for teaching about the nervous system and related health issues.
Proper citation: Neuroscience Education Resources Virtual Encycloportal (RRID:SCR_002897) Copy
http://senselab.med.yale.edu/neurondb
Database of three types of neuronal properties: voltage gated conductances, neurotransmitter receptors, and neurotransmitter substances. It contains tools that provide for integration of these properties in a given type of neuron and compartment, and for comparison of properties across different types of neurons and compartments.
Proper citation: NeuronDB (RRID:SCR_003105) Copy
THIS RESOURCE IS NO LONGER IN SERVICE, documented on May 23, 2013. Database for resting state functional connectivity studies. Functional connectivity has shown tremendous promise in mapping the intrinsic functional topography of the brain, evaluating neuroanatomical models, and investigating neurological and psychiatric disease. Brainscape includes a repository of public and private data and an analysis engine for exploring the correlation structure of spontaneous fluctuations in the fMRI BOLD signal. (DICOM data is the image format that can be uploaded.) With Brainscape you can upload, analyze, and share your own data. You can search for, download, and analyze studies in the repository of shared data. The analysis engine works by selecting one or more studies, typing in the coordinates of a brain region of interest, and the seed-region correlation engine computes the correlation structure across the whole brain. (T1, T2 and EPI data are the scan types Brainscape can process.) You decide who can access your data. You can keep it to yourself, share with select colleagues, or share it with everyone. The Brainscape database and analysis tools are open source and freely available.
Proper citation: Brainscape (RRID:SCR_002962) Copy
http://trans.nih.gov/bmap/resources/resources.htm
As part of BMAP gene discovery efforts, mouse brain cDNA libraries and Expressed Sequence Tags (ESTs) have been generated. Through this project a BMAP mouse brain UniGene set consisting of over 24,000 non-redundant members of unique clusters has been developed from EST sequencing of more than 50,000 cDNA clones from 10 regions of adult mouse brain, spinal cord, and retina (http://brainEST.eng.uiowa.edu/). In 2001, NIMH along with NICHD, NIDDK, and NIDA, awarded a contract to the University of Iowa ( M.B. Soares, PI) to isolate full-length cDNA clones corresponding to genes expressed in the developing mouse nervous system and determine their full-coding sequences. The BMAP mouse brain EST sequences can be accessed at NCBI's dbEST database (http://www.ncbi.nlm.nih.gov/dbEST/). Arrayed sets of BMAP mouse brain UniGenes and cDNA libraries, and individual BMAP cDNA clones can be purchased from Open Biosystems, Huntsville, AL (http://www.openbiosystems.com
Proper citation: BMAP cDNA Resources (RRID:SCR_002973) Copy
http://www.cephalopod.org/DBMR.cfm
THIS RESOURCE IS NO LONGER IN SERVICE, documented on July 17, 2013. The center serves the biomedical research community's increased needs for alternative invertebrate models by maintaining a consistent year-round supply of live cephalopod mollusks. These animals are suitable for a wide range of physiological and molecular biological investigations. Investigations are being conducted in the area of life history related to improved animal husbandry. Further studies focus on improving culture system design through development of computer automation and innovative water filtration technology. Current biomedical research on cephalopods includes neurophysiology of the giant axon; anatomy and neurophysiology of the equilibrium receptor organ as a comparative model of the vestibular system of invertebrates; chemoreception, basic nutrition, and protein metabolism; cellular receptor function; and brain, behavior, and learning. Services Provided: The center has built a computer-automated, environmentally controlled, recirculating seawater laboratory for the purpose of culturing cephalopods. The tank systems can be used to conduct a variety of experiments never before possible with cephalopods. Visiting researchers have access to dedicated facilities, including wet and dry laboratory space, office space, computer support and accommodations, as well as priority access to all available live animal resources. Off-site investigators can have live animals, dissected animal tissues/body fluids from all life stages, and a variety of molecular reagents (gene libraries and clones) delivered year-round. Staff expertise and an extensive literature library are available. All life stages of the squid (Sepioteuthis lessoniana) and the common cuttlefish (Sepia officinalis) are available year-round from laboratory culture populations. The sepiolid squid (Euprymna scolopes) can also be cultured on request. The squid Lolliguncula brevis is available year-round from local waters; the squids Loligo opalescens, L. pealeii, and L. plei can be obtained seasonally on request. The chambered nautilus, Nautilus pompilius, and Octopus bimaculoides are available on request. Animal costs vary by species and size. Any tissue or body fluid from these animals can also be provided. Fees for special services are negotiated on a case-by-case basis.
Proper citation: National Resource Center for Cephalopods (RRID:SCR_002864) Copy
http://irc.cchmc.org/software/pedbrain.php
Brain imaging data collected from a large population of normal, healthy children that have been used to construct pediatric brain templates, which can be used within statistical parametric mapping for spatial normalization, tissue segmentation and visualization of imaging study results. The data has been processed and compiled in various ways to accommodate a wide range of possible research approaches. The templates are made available free of charge to all interested parties for research purposes only. When processing imaging data from children, it is important to take into account the fact that the pediatric brain differs significantly from the adult brain. Therefore, optimized processing requires appropriate reference data be used because adult reference data will introduce a systematic bias into the results. We have shown that, in the in the case of spatial normalization, the amount of non-linear deformation is dramatically less when a pediatric template is used (left, see also HBM 2002; 17:48-60). We could also show that tissue composition is substantially different between adults and children, and more so the younger the children are (right, see also MRM 2003; 50:749-757). We thus believe that the use of pediatric reference data might be more appropriate.
Proper citation: CCHMC Pediatric Brain Templates (RRID:SCR_003276) Copy
Portal on how the experiences of early childhood are incorporated into the structures of the developing brain, and how, in turn, those changes in the structures of the brain influence behavior. The network explores how knowledge of brain development can guide us in understanding of behavioral development and vice versa. It focuses specifically on sensitive periods and neural plasticity, the reciprocal phenomena whereby (a) the brain is negatively affected if certain experiences fail to occur within a certain time period, and (b) the brain is altered by experience at virtually any point in the life span. Here we consider not only how the structure of experience is incorporated into the structure of the brain, but also how this knowledge can influence the decisions we make about intervening in the lives of children. Research and other projects conducted by the Network fall into four broad categories: * Effects of early experience on brain development * New methods for studying brain-behavior relations * Comparative studies of early brain-behavioral development * Impact on public policy: Educating educators and the media RESOURCES NimStim Face Stimulus Set The Research Network on Early Experience and Brain Development has developed a battery of 646 facial expression stimuli for use in its own and other studies of face and emotion recognition. Images include the following expressions, displayed by a variety of models of various genders and races: fearful, happy, sad, angry, surprised, calm, neutral, disgusted. They are making these stimuli available to the public free of charge with registration and acceptance of the terms and conditions to use the stimulus set.
Proper citation: Research Network in Early Experience and Brain Development (RRID:SCR_003271) Copy
http://genome.ucsc.edu/cgi-bin/hgVisiGene
Virtual microscope for viewing in situ images that show where a gene is used in an organism, sometimes down to cellular resolution. The user can examine cell-by-cell as well as tissue-by-tissue expression patterns. Users can retrieve images that meet specific search criteria, then interactively zoom and scroll across the collection. Image set contributions are welcome. The following image collections are currently available for browsing: * High-quality high-resolution images of eight-week-old male mouse sagittal brain slices with reverse-complemented mRNA hybridization probes from the Allen Brain Atlas, courtesy of the Allen Institute for Brain Science * Mouse in situ images from the Jackson Lab Gene Expression Database (GXD) at MGI * Transcription factors in mouse embryos from the Mahoney Center for Neuro-Oncology * Mouse head and brain in situ images from NCBI''''s Gene Expression Nervous System Atlas (GENSAT) database * Xenopus laevis in situ images from the National Institute for Basic Biology (NIBB) XDB project
Proper citation: VisiGene Image Browser (RRID:SCR_003341) Copy
http://www.ispa.pt/ui/uie/ibbg/TilapiaBrainAtlas/index.html
Digital three-dimensional MRI atlas of the Mozambique tilapia brain, supported by Nissl staining. Images were viewed and analyzed in all orientations (transverse, sagittal, and horizontal) and manually labelled to reveal structures in the olfactory bulb, telencephalon, diencephalon, optic tectum, and cerebellum. The MRI atlas data (16-bit int) and delineation data (8-bit int) are provided in Raw data (file_name.raw), Amira format (file_name.am) and in Analyze format (file_name.img and file_name.hdr).
Proper citation: Brain Atlas of the Mozambique Tilapia Oreochromis mossambicus (RRID:SCR_003501) Copy
https://www.biomax.com/neuroxm
Software toolkit for semantic integration of multi-modal brain data. It is used to collect, structure, connect, analyze and re-use brain data.
Proper citation: NeuroXM Brain Science Suite (RRID:SCR_016372) Copy
https://github.com/CPernet/brain_colours
Software tool as a perceptually uniform color maps. Used in scientific literature to reflect data of brain imaging.
Proper citation: Colour maps for brain imaging (RRID:SCR_016715) Copy
https://cran.r-project.org/web/packages/anocva/index.html
Software R package as a nonparametric statistical test to compare clustering structures with applications in functional magnetic resonance imaging data (fMRI). Used for analysis of cluster variability in the diagnosis of neuropsychological disorders.
Proper citation: ANOCVA (RRID:SCR_016719) Copy
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The NIDDK Information Network (dkNET) serves the needs of basic and clinical investigators by providing seamless access to large pools of data and research resources relevant to the mission of The National Institute of Diabetes Digestive and Kidney Diseases (NIDDK). dkNET is hosted at University of California San Diego, and is supported by NIH NIDDK grant 2U24DK097771-09.
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