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http://www.cognitorium.com/

THIS RESOURCE IS NO LONGER IN SERVICE, documented October 28, 2015. Interactive, informative and educational community platform dedicated to cognitive science or the multidisciplinary exploration of the mind. This online platform, will help gather and link information providing a thorough and reliable source of information for students and professionals in the field, as well as help bridge the gap between academia and the society. Due to the multidisciplinary nature of cognitive science, the work is becoming increasingly specialized. Therefore to keep an eye on the bigger picture, it seems necessary to bring the discoveries of various disciplines together in one place, look at their similarities and differences and discuss them for future directions.

Proper citation: Cognitorium (RRID:SCR_000098) Copy   

•   Source: SciCrunch Registry

http://www.gensat.org/

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   

•   Source: SciCrunch Registry

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   

•   Source: SciCrunch Registry

http://caprica.genetics.kcl.ac.uk/BRAINEAC/

Database for the UK Brain Expression Consortium (UKBEC) dataset that comprises of brains from individuals free of neurodegenerative disorders. The aim of Braineac is to release to the scientific community a valid instrument to investigate the genes and SNPs associated with neurological disorders.

Proper citation: Braineac (RRID:SCR_015888) Copy   

•   Source: SciCrunch Registry

http://www.nitrc.org/projects/clsm/

Software package that performs several multivariate and mass univariate lesion symptom mapping analyses. Uses patient imaging lesion masks of brain insults and correlates them in multiple ways with patient behavioral and covariate data. Several permutation based SPMs are computed along with power, variance explained, and lesion coverage maps.

Proper citation: CLIMB Lesion Symptom Mapping Software (RRID:SCR_018298) Copy   

•   Source: SciCrunch Registry

http://brainarchitecture.org/allen-atlas-brain-toolbox

Software Matlab toolbox for quantitative analysis of digitized brain wide gene expression data from Allen Atlas of adult mouse brain.

Proper citation: Brain Gene Expression Analysis toolbox (RRID:SCR_017438) Copy   

•   Source: SciCrunch Registry

http://chronux.org

Open-source software package for the analysis of neural data. Chronux routines may be employed in the analysis of both point process and continuous data, ranging from preprocessing, exploratory and confirmatory analysis. The current release is implemented as a MATLAB library. Chronux offers several routines for computing spectra and coherences for both point and continuous processes. In addition, it also offers several general purpose routines that were found useful such as a routine for extracting specified segments from data, or binning spike time data with bins of a specified size. Since the data can be continuous valued, point process times, or point processes that are binned, methods that apply to all these data types are given in routines whose names end with ''''c'''' for continuous, ''''pb'''' for binned point processes, and ''''pt'''' for point process times. Thus, mtspectrumc computes the spectrum of continuous data, mtspectrumpb computes a spectrum for binned point processes, and mtspectrumpt compute spectra for data consisting of point process times. Hybrid routines are also available and similarly named - for instance coherencycpb computes the coherency between continuous and binned point process data.

Proper citation: Chronux (RRID:SCR_005547) Copy   

•   Source: SciCrunch Registry

https://sites.google.com/site/tdtdecodingtoolbox/

Software Matlab toolbox for multivariate analysis of functional and structural MRI data. Software package for multivariate analyses of functional imaging data.

Proper citation: The Decoding Toolbox (RRID:SCR_017424) Copy   

•   Source: SciCrunch Registry

https://github.com/AllenInstitute/AllenSDK

Software tool as code for processing and analyzing data in Allen Brain Atlas. Source code for reading and processing Allen Brain Atlas data. Allen SDK focuses on Allen Brain Observatory, Cell Types Database, and Mouse Brain Connectivity Atlas.

Proper citation: Allen Software Development Kit (RRID:SCR_018183) Copy   

•   Source: SciCrunch Registry

http://www.bioon.com/bioline/neurosci/course/index.htm

An illustrated guide to the essential basics of clinical neuroscience created in conjunction with the first-year course for medical students.
Topics covered:
* Coronal and horizontal sections
* Basic visual pathway
* Basic somatosensory pathway
* Basic motor pathway
* Eye and retina
* Central visual pathways
* Auditory and vestibular systems
* Somatosensory pathways from the body
* Somatosensory pathways from the face
* Spinal motor structures
* Brainstem nuclei of cranial nerves
* Basal ganglia and cerebellum
* Hypothalamus and autonomic nervous system
* Medial temporal lobe and memory
* Sleep and language
* Where is...?

Proper citation: Washington University School of Medicine Neuroscience Tutorial (RRID:SCR_002271) Copy   

•   Source: SciCrunch Registry

http://nips.cc/

The Neural Information Processing Systems (NIPS) Foundation is a non-profit corporation whose purpose is to foster the exchange of research on neural information processing systems in their biological, technological, mathematical, and theoretical aspects. Neural information processing is a field which benefits from a combined view of biological, physical, mathematical, and computational sciences. The primary focus of the NIPS Foundation is the presentation of a continuing series of professional meetings known as the Neural Information Processing Systems Conference, held over the years at various locations in the United States and Canada.

Proper citation: NIPS - Neural Information Processing Systems Conference (RRID:SCR_001998) Copy   

•   Source: SciCrunch Registry

http://connectomes.org/

THIS RESOURCE IS NO LONGER IN SERVICE. Documented on October 28,2025. Project mapping whole mouse brain connectivity using serial block face scanning electron microscopy (SBF-SEM) with a specially-designed whole-brain microtome (WBM). With any luck, the whole mouse brain will be mapped ultrastructurally in the near term, which will then open the door to more serious problems; reliable automated segmentation and circuit reconstruction. These will undoubtedly require advances in machine learning methods and their application. Connectomics Software and a Multiresolution Image Viewer (MIV) is also available.

Proper citation: Connectomes.org (RRID:SCR_002243) Copy   

•   Source: SciCrunch Registry

http://hendrix.ei.dtu.dk/software/mriwarp/mriwarp.html

Warping tool for intersubject registration of brain images consisting of C functions for Unix systems plus Matlab visualization utility functions. Apart from warping there are also (command line) functions for ANALYZE header information, mirroring, translation, subsampling. The package cannot only be used as a preprocessing step in function neuroimaging but also as a step in deformation-based morphometry.

Proper citation: MRIWarp (RRID:SCR_002072) Copy   

•   Source: SciCrunch Registry

http://www.jeiglesias.com

An automatic whole-brain extraction tool for T1-weighted MRI data (commonly known as skull stripping). Whole-brain segmentation is often the first component in neuroimage pipelines and therefore, its robustness is critical for the overall performance of the system. Many methods have been proposed in the literature, but they often: * work well on certain datasets but fail on others. * require case-specific parameter tuning ROBEX aims for robust skull-stripping across datasets with no parameter settings. It fits a triangular mesh, constrained by a shape model, to the probabilistic output of a supervised brain boundary classifier. Because the shape model cannot perfectly accommodate unseen cases, a small free deformation is subsequently allowed. The deformation is optimized using graph cuts.

Proper citation: ROBEX (RRID:SCR_002534) Copy   

•   Source: SciCrunch Registry

http://www.kumc.edu/instruction/medicine/anatomy/histoweb/nervous/nervous.htm

Histology atlas of different parts of the nervous system that corresponds with the laboratory exercises of the Cell & Tissue Biology course of the School of Medicine of the University of Kansas. Succinct explanations of the tissues to guide the first-year medical student in the use of their microscope is provided and subsequently serves as a permanent histology resource for all medical students and physicians. Sections of the brain that are included are: * Spinal Cord * Central Canal * White Matter * Gray Matter * Dorsal Root Ganglion * Cerebellum * Cerebrum * Astrocytes * Nerve * Node of Ranvier * Pacinian Corpuscle

Proper citation: HistoWeb: Nervous System (RRID:SCR_002369) Copy   

•   Source: SciCrunch Registry

http://www.behav.org/abcd/abcd.php

THIS RESOURCE IS NO LONGER IN SERVICE. Documented August 21, 2017.

Database developed for storing, retrieving and cross-referencing neuroscience information about the connectivity of the avian brain. It contains entries about the new and old terminology of the areas and their hierarchy and data on connections between brain regions, as well as a functional keyword system linked to brain regions and connections.

Proper citation: Avian Brain Circuitry Database (RRID:SCR_002401) Copy   

•   Source: SciCrunch Registry

http://www.unidesign.ch/wiki/

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   

•   Source: SciCrunch Registry

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   

•   Source: SciCrunch Registry

http://www.umc.edu/Administration/Centers_and_Institutes/Center_for_Psychiatric_Neuroscience/Core_Research_Resources.aspx

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   

•   Source: SciCrunch Registry

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   

•   Source: SciCrunch Registry