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http://www-genome.stanford.edu/
This resource hyperlinks to systematic analysis projects, resources, laboratories, and departments at Stanford University.
Proper citation: Stanford Genomic Resourses (RRID:SCR_001874) Copy
http://www.cogneurosociety.org/
The Cognitive Neuroscience Society (CNS) is committed to the development of mind and brain research aimed at investigating the psychological, computational, and neuroscientific bases of cognition. Since its founding in 1994, the Society has been dedicated to bringing its 2000 worldwide members the latest research and dialogues in order to facilitate public, professional and scientific discourse. The term cognitive neuroscience has now been with us for almost three decades, and identifies an interdisciplinary approach to understanding the nature of thought. Our members, who are engaged in research focused on elucidating the biological underpinnings of mental processes, form a network of scientists and scholars working at the interface of mind, brain and behavior research. The findings of this research are presented at our member-supported annual scientific conference. The three-day program of plenary speakers, symposia, posters and special events covers all aspects of cognitive neuroscience research. The Society also disseminates information regarding employment opportunities, training fellowships, research grants, and information on related scientific conferences in its monthly newsletter. Our members can receive the Journal of Cognitive Neuroscience at a substantial discount.
Proper citation: Cognitive Neuroscience Society (RRID:SCR_001990) Copy
This is a topical portal dedicated to the communication of news, science, and information of interest to the brain mapping community, and to sharing and promoting the science of brain mapping. The purpose and goal of brain mapping is to advance the understanding of the relationship between structure and function in the human brain. Scientists in this field seek to gain knowledge of the physical processes that underly human sensation, attention, awareness and cognition. These results are immediately applicable to surgical intervention, to the design of medical interventions and to the treatment of psychological and psychiatric disorders.
Proper citation: www.brainmapping.org (RRID:SCR_001987) Copy
The International Society for Cerebral Blood Flow & Metabolism is a corporation operated exclusively for the purpose of promoting the advancement of education in the science of cerebral blood flow and metabolism throughout the world. The ISCBFM produces a quarterly newsletter, an official journal (Journal of Cerebral Blood Flow & Metabolism), have a yearly meeting, opportunities to host summer schools and a job board. ISCBFM members organize summer schools which are courses that have the aim to bring together young and experienced scientists for educational purposes. The biennial Brain Meetings also have a substantial part of the time allocated for educational purposes for young scientists interested in the field of cerebral blood flow and metabolism. Preference will be given to suggestions that are seen as a complement to scheduled courses in connection with the Brain Meetings and to courses that are given in between Brain Meetings.
Proper citation: ISCBFM - International Society for Cerebral Blood Flow and Metabolism (RRID:SCR_001989) Copy
http://www.humanbrainmapping.org/i4a/pages/index.cfm?pageid=1
International society dedicated to advancing understanding of anatomical and functional organization of human brain using neuroimaging. Primary function of society is to provide educational forums for exchange of up-to-the-minute and groundbreaking research across neuroimaging methods and applications. OHBM achieves this through its member led committees and Annual Meeting that is held in different locations throughout the world.
Proper citation: Organization for Human Brain Mapping (RRID:SCR_001978) Copy
https://netbio.bgu.ac.il/tissuenet3/
THIS RESOURCE IS NO LONGER IN SERVICE, documented on 7/15/13. The Nation's one-stop resource for information about substance abuse prevention and addiction treatment offering more than 500 items to the public, many of which are free of charge. They distribute the latest studies and surveys, guides, videocassettes, and other types of information and materials on substance abuse from various agencies, such as the U.S. Departments of Education and Labor, the Center for Substance Abuse Prevention, the Center for Substance Abuse Treatment, the National Institute on Alcohol Abuse and Alcoholism, and the National Institute on Drug Abuse. They staff both English- and Spanish-speaking information specialists who are skilled at recommending appropriate publications, posters, and videocassettes; conducting customized searches; providing grant and funding information; and referring people to appropriate organizations. They are available 24 hours a day, 7 days a week to take your calls at 1-800-729-6686. NCADI services include: * an information services staff (English, Spanish, TDD capability) equipped to respond to the public's alcohol, tobacco, and drug (ATD) inquiries; * the distribution of free or low-cost ATD materials, including fact sheets, brochures, pamphlets, monographs, posters, and video tapes from an inventory of over 1,000 items; * a repertoire of culturally-diverse prevention, intervention, and treatment resources tailored for use by parents, teachers, youth, communities and prevention/treatment professionals; * customized searches in the form of annotated bibliographies from alcohol and drug data bases; * access to the Prevention Materials database (PMD) including over 8,000 prevention-related materials and the Treatment Resources Database, available to the public in electronic form; * rapid dissemination of Federal grant announcements for ATD prevention, treatment, and research funding opportunities.
Proper citation: SAMHSAs National Clearinghouse for Alcohol and Drug Information (RRID:SCR_002053) Copy
Software automated coordinate based system to retrieve brain labels from the 1988 Talairach Atlas. Talairach Daemon database contains anatomical names for brain areas using x-y-z coordinates defined by the 1988 Talairach Atlas.
Proper citation: Talairach Daemon (RRID:SCR_000448) Copy
The PEDIATRIC BRAIN TUMOR CONSORTIUM (PBTC) is a multidisciplinary cooperative research organization devoted to the study of correlative tumor biology and new therapies for primary CNS tumors of childhood. PBTC's mission is to contribute rapidly and effectively to the understanding and cure of these tumors through the conduct of multi-center, multidisciplinary, innovative studies with designs and analyses based on uniformly high quality statistical science. While the primary mission of the PBTC is to identify through laboratory and clinical science superior treatment strategies for children with brain cancers, the PBTC investigators recognize their profound responsibility to meet the special needs of the children and families as they face this enormous challenge. Members are committed to working within their institutions and communities to improve support services and follow up care for these patients and their families. The PBTC's primary objective is to rapidly conduct novel phase I and II clinical evaluations of new therapeutic drugs, new biological therapies, treatment delivery technologies and radiation treatment strategies in children from infancy to 21 years of age with primary central nervous system (CNS) tumors. A second objective is to characterize reliable markers and predictors (direct or surrogate) of brain tumors' responses to new therapies. The Consortium conducts research on brain tumor specimens in the laboratory to further understand the biology of pediatric brain tumors. A third objective is to develop and coordinate innovative neuro-imaging techniques. Through the PBTC's Neuro-Imaging Center, formed in May 2000, research to evaluate new treatment response criteria and neuro-imaging methods to understand regional brain effects is in progress. These imaging techniques can also advance understanding of significant neuro-toxicity in a developing child's central nervous system. The Neuro-Imaging Center is supported in part by private sources - grants from foundations and non-profit organizations - in addition to the NCI. As an NCI funded Consortium, the Pediatric Brain Tumor Consortium (PBTC) is required to make research data available to other investigators for use in research projects. An investigator who wishes to use individual patient data from one or more of the Consortium's completed and published studies must submit in writing a description of the research project, the PBTC studies from which data are requested, the specific data requested, and a list of investigators involved with the project and their affiliated research institutions. A copy of the requesting investigator's CV must also be provided. Participating Institutions: Children's Hospital of Philadelphia, Children's National Medical Center (Washington, DC), Children's Memorial Hospital (Chicago), Duke University, National Cancer Institute, St. Jude Children's Research Hospital, Texas Children's Cancer Center, University of California at San Francisco, and University of Pittsburgh.
Proper citation: Pediatric Brain Tumor Consortium (RRID:SCR_000658) Copy
http://cvrl.ioo.ucl.ac.uk/index.htm
The Colour & Vision Research laboratory and database are based at the Institute of Ophthalmology, which is part of University College London. The Institute and CVRL are both closely associated with Moorfields Eye Hospital. The Institute is next door to Moorfields Eye Hospital near Old Street tube station (see directions). At the Colour & Vision Research laboratory, we investigate normal and clinical human visual perception. Our research focuses on questions about colour perception, light and dark adaptation, night-time vision, and the temporal and spatial properties of vision. Our primary goal is to understand the nature of the mechanisms that underlie visual perception, and to understand how those mechanism malfunction in clinical cases. More details about our research can be found by looking at the publications of members of the laboratory. The CVRL database, first set up in 1995, provides an annotated library of downloadable standard data sets relevant to colour and vision research. The focus of this site is primarily scientific and technical, but some introductory background information is also provided. A consistent set of functions for modeling colour vision based on the Stockman & Sharpe cone fundamentals and on our more recent luminous efficiency measurements are summarized under the category CVRL functions. These functions are tabulated in 0.1, 1 and 5 nm steps and can be returned as csv, xml, or tabular data or as dynamic plots. The Stockman & Sharpe cone fundamentals are the basis of a CIE proposal for physiologically-relevant colour matching functions. These functions, which are indentical to the CVRL functions, are summarized under the category CIE 2007 functions. The CIE functions are also tabulated in 0.1, 1 and 5 nm steps, and can also be returned as csv, xml, or tabular data or as dynamic plots. Significant additions to the database are the individual colour matching measurements made by Stiles & Burch. These have been compiled and cross-checked with the help of Boris Oicherman, Alexander Logvinenko, and Abhijit Sarkar from hard copies of the original data provided by Pat Trezona and Mike Webster. They can be obtained as Excel files and are available for both 2 and 10 colour matches. Other data sets, which are provided as csv files, include cone fundamentals, colour matching functions, chromaticity coordinates, prereceptoral filter density spectra, photopigment spectra, and CIE standards. Many of these data sets can also be viewed as dynamic plots. Sponsors: CVRL is funded by BBSRC The Wellcome Trust, Fight for Sight, National Eye Institute, and NIH.
Proper citation: Colour and Vision Research Laboratory (RRID:SCR_000770) Copy
http://www.yandell-lab.org/software/index.html
Sequenced genomes contain a treasure trove of information about how genes function and evolve. Getting at this information, however, is challenging and requires novel approaches that combine computer science and experimental molecular biology. My lab works at the intersection of both domains, and research in our group can be summarized as follows: generate hypotheses concerning gene function and evolution by computational means, and then test these hypotheses at the bench. This is easier said than done, as serious barriers still exist to using sequenced genomes and their annotations as starting points for experimental work. Some of these barriers lie in the computational domain, others in the experimental. Though challenging, overcoming these barriers offers exciting training opportunities in both computer science and molecular genetics, especially for those seeking a future at the intersection of both fields. Ongoing projects in the lab are centered on genome annotation and comparative genomics; exploring the relationships between sequence variation and human disease; and high-throughput biological image analysis. Current software tools available: VAAST (the Variant Annotation, Analysis & Search Tool) is a probabilistic search tool for identifying damaged genes and their disease-causing variants in personal genome sequences. VAAST builds upon existing amino acid substitution (AAS) and aggregative approaches to variant prioritization, combining elements of both into a single unified likelihood-framework that allows users to identify damaged genes and deleterious variants with greater accuracy, and in an easy-to-use fashion. VAAST can score both coding and non-coding variants, evaluating the cumulative impact of both types of variants simultaneously. VAAST can identify rare variants causing rare genetic diseases, and it can also use both rare and common variants to identify genes responsible for common diseases. VAAST thus has a much greater scope of use than any existing methodology. MAKER 2 (updated 01-16-2012) MAKER is a portable and easily configurable genome annotation pipeline. It's purpose is to allow smaller eukaryotic and prokaryotic genomeprojects to independently annotate their genomes and to create genome databases. MAKER identifies repeats, aligns ESTs and proteins to a genome, produces ab-initio gene predictions and automatically synthesizes these data into gene annotations having evidence-based quality values. MAKER is also easily trainable: outputs of preliminary runs can be used to automatically retrain its gene prediction algorithm, producing higher quality gene-models on seusequent runs. MAKER's inputs are minimal and its ouputs can be directly loaded into a GMOD database. They can also be viewed in the Apollo genome browser; this feature of MAKER provides an easy means to annotate, view and edit individual contigs and BACs without the overhead of a database. MAKER should prove especially useful for emerging model organism projects with minimal bioinformatics expertise and computer resources. RepeatRunner RepeatRunner is a CGL-based program that integrates RepeatMasker with BLASTX to provide a comprehensive means of identifying repetitive elements. Because RepeatMasker identifies repeats by means of similarity to a nucleotide library of known repeats, it often fails to identify highly divergent repeats and divergent portions of repeats, especially near repeat edges. To remedy this problem, RepeatRunner uses BLASTX to search a database of repeat encoded proteins (reverse transcriptases, gag, env, etc...). Because protein homologies can be detected across larger phylogenetic distances than nucleotide similarities, this BLASTX search allows RepeatRunner to identify divergent protein coding portions of retro-elements and retro-viruses not detected by RepeatMasker. RepeatRunner merges its BLASTX and RepeatMasker results to produce a single, comprehensive XML-based output. It also masks the input sequence appropriately. In practice RepeatRunner has been shown to greatly improve the efficacy of repeat identifcation. RepeatRunner can also be used in conjunction with PILER-DF - a program designed to identify novel repeats - and RepeatMasker to produce a comprehensive system for repeat identification, characterization, and masking in the newly sequenced genomes. CGL CGL is a software library designed to facilitate the use of genome annotations as substrates for computation and experimentation; we call it CGL, an acronym for Comparitive Genomics Library, and pronounce it Seagull. The purpose of CGL is to provide an informatics infrastructure for a laboratory, department, or research institute engaged in the large-scale analysis of genomes and their annotations.
Proper citation: Yandell Lab Portal (RRID:SCR_000807) Copy
International collaborative research project and database of annotated mammalian genome. Used to improve estimates of total number of genes and their alternative transcript isoforms in both human and mouse. Consortium to assign functional annotations to full length cDNAs that were collected during Mouse Encyclopedia Project at RIKEN.
Proper citation: Functional Annotation of the Mammalian Genome (RRID:SCR_000788) Copy
Evolving portal that will provide interactive tools and resources to allow researchers, clinicians, and students to discover, analyze, and visualize what is known about the brain's organization, and what the evidence is for that knowledge. This project has a current experimental focus: creating the first brainwide mesoscopic connectivity diagram in the mouse. Related efforts for the human brain currently focus on literature mining and an Online Brain Atlas Reconciliation Tool. The primary goal of the Brain Architecture Project is to assemble available knowledge about the structure of the nervous system, with an ultimate emphasis on the human CNS. Such information is currently scattered in research articles, textbooks, electronic databases and datasets, and even as samples on laboratory shelves. Pooling the knowledge across these heterogeneous materials - even simply getting to know what we know - is a complex challenge that requires an interdisciplinary approach and the contributions and support of the greater community. Their approach can be divided into 4 major thrusts: * Literature Curation and Text Mining * Computational Analysis * Resource Development * Experimental Efforts
Proper citation: Brain Architecture Project (RRID:SCR_004283) Copy
The Department of Neurology & Psychiatry aims to 1) provide the best psychiatric and neurological care to patients and their families, 2) discover and investigate new treatments for psychiatric and nervous system disorders, 3) study psychosocial processes in psychiatric and neurological illness, and 4) educate the next generation of practitioners, as well as our patients and the lay community. The Department of Neurology & Psychiatry (DNP) was established on June 1, 2007. The Department has 34 faculty members and is planning continued expansion. There are 7 psychiatrists, 18 neurologists, 4 child neurologists, and 5 NIH-supported PhD investigators. The DNP is one of five departments in the country that combines the disciplines of neurology and psychiatry. We are unique in having two strong residency programs and are the only that attempts to establish a new paradigm in care of patients with neurological and psychiatric disease through co-management initiatives. * Division of Psychiatry: The Psychiatrists work within four areas: Adult, Geriatric, Community, and Forensic Psychiatry. * Division of Neurology: The division has an extremely active stroke/intensive care and general neurology service. We are expanding services in neurocritical care and interventional neurology. * Education: The DNP has approximately 25 residents/fellows in each discipline. * Research: The DNP has robust programs in clinical, basic, and translational research. We emphasize 3 areas in this overview of the DNP. ** Clinical Research Unit ** Psychosocial Processes Group ** Translational Neuromuscular Disease VISION STATEMENT All members of the Saint Louis University Department of Neurology & Psychiatry will collaborate to support state-of-the-art neurological and psychiatric education, compassionate patient care, and a growing research enterprise. The Department will develop the most exciting intellectual environment in the Nation for investigation, treatment, and training in psychiatry and neurology. We will fulfill this Vision in an environment of mutual respect and collaboration.
Proper citation: St. Louis University Department of Neurology and Psychiatry (RRID:SCR_004297) Copy
http://www.abc.net.au/rn/allinthemind/default.htm
Radio National''s weekly foray into all things mental a program (podcast) about the mind, brain and behavior, hosted by Lynne Malcolm (previously by Natasha Mitchell). From dreaming to depression, addiction to artificial intelligence, consciousness to coma, psychoanalysis to psychopathy, free will to forgetting ��All in the Mind��explores the human condition through the mind''s eye. All in the Mind brings together unexpected voices, themes and ideas and engages with both leading thinkers and personal stories. Psychology and human behavior are only part of the equation. The program''s scope is considerably broader and explores themes in science, religion, health, philosophy, education, history and pop culture, with the mind as the key focus.
Proper citation: All In The Mind (RRID:SCR_004240) Copy
http://openconnectomeproject.org/
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 9, 2023. Connectomes repository to facilitate the analysis of connectome data by providing a unified front for connectomics research. With a focus on Electron Microscopy (EM) data and various forms of Magnetic Resonance (MR) data, the project aims to make state-of-the-art neuroscience open to anybody with computer access, regardless of knowledge, training, background, etc. Open science means open to view, play, analyze, contribute, anything. Access to high resolution neuroanatomical images that can be used to explore connectomes and programmatic access to this data for human and machine annotation are provided, with a long-term goal of reconstructing the neural circuits comprising an entire brain. This project aims to bring the most state-of-the-art scientific data in the world to the hands of anybody with internet access, so collectively, we can begin to unravel connectomes. Services: * Data Hosting - Their Bruster (brain-cluster) is large enough to store nearly any modern connectome data set. Contact them to make your data available to others for any purpose, including gaining access to state-of-the-art analysis and machine vision pipelines. * Web Viewing - Collaborative Annotation Toolkit for Massive Amounts of Image Data (CATMAID) is designed to navigate, share and collaboratively annotate massive image data sets of biological specimens. The interface is inspired by Google Maps, enhanced to allow the exploration of 3D image data. View the fork of the code or go directly to view the data. * Volume Cutout Service - RESTful API that enables you to select any arbitrary volume of the 3d database (3ddb), and receive a link to download an HDF5 file (for matlab, C, C++, or C#) or a NumPy pickle (for python). Use some other programming language? Just let them know. * Annotation Database - Spatially co-registered volumetric annotations are compactly stored for efficient queries such as: find all synapses, or which neurons synapse onto this one. Create your own annotations or browse others. *Sample Downloads - In addition to being able to select arbitrary downloads from the datasets, they have also collected a few choice volumes of interest. * Volume Viewer - A web and GPU enabled stand-alone app for viewing volumes at arbitrary cutting planes and zoom levels. The code and program can be downloaded. * Machine Vision Pipeline - They are building a machine vision pipeline that pulls volumes from the 3ddb and outputs neural circuits. - a work in progress. As soon as we have a stable version, it will be released. * Mr. Cap - The Magnetic Resonance Connectome Automated Pipeline (Mr. Cap) is built on JIST/MIPAV for high-throughput estimation of connectomes from diffusion and structural imaging data. * Graph Invariant Computation - Upload your graphs or streamlines, and download some invariants. * iPad App - WholeSlide is an iPad app that accesses utilizes our open data and API to serve images on the go.
Proper citation: Open Connectome Project (RRID:SCR_004232) Copy
Infrastructure for sharing cardiovascular data and data analysis tools. Human ExVivo heart data set and canine ExVivo normal and failing heart data sets are available. Canine hearts atlas and human InVivo atlases are available.
Proper citation: CardioVascular Research Grid (CVRG) (RRID:SCR_004472) Copy
https://www.hupo.org/human-antibody-initiative/
THIS RESOURCE IS NO LONGER IN SERVICE, documented on January 19, 2022.The mission of the Human Antibody Initiative (HAI) aims to promote and facilitate the use of antibodies for proteomics research. The initiative consists of two separate activities; (1) the generation of a catalogue of validated antibodies from many different sources and (2) a protein atlas for the expression and localization of human proteins in normal and disease tissue. The two separate activities have as their primary deliverables to generate databases with free public accessibility. The Antibody Resource database (www.antibodypedia.org) is aimed to produce a comprehensive catalogue of validated antibodies towards human proteins. This initiative depends on input from a large number of academic groups and commercial companies. The Protein Atlas initiative (www.proteinatlas.org) is aimed to provide comprehensive and annotated database of high-resolution images showing tissue profiles in normal and cancer tissues. Both databases will be open to the public without restriction (no passwords).
Proper citation: HUPO Antibody Initiative (RRID:SCR_004568) Copy
National Brain Tumor Society (NBTS) is a nonprofit organization committed to finding a cure for brain tumors. We aggressively drive strategic research, advocate for public policies that meet the critical needs of the brain tumor community, and provide patient information. Headquartered in Watertown, Massachusetts, with offices in San Francisco, California and Wilmington, Delaware, we host activities throughout the United States. Formed in 2008 by the merger of two leading organizations that had served the brain tumor community, the National Brain Tumor Foundation and the Brain Tumor Society, the National Brain Tumor Society is now the largest brain tumor nonprofit organization in the country. Both legacy organizations had been formed in the 1980s by parents and other people who were committed to increasing both research funding and access to resources specific to brain tumors. In 2010, the Kelly Heinz-Grundner Foundation, a Delaware-based organization, joined NBTS as a wholly-owned subsidiary. Founded in 2005, after the death of Kelly Heinz-Grundner to a brain tumor, the group has contributed to NBTS''s efforts to pursue research and public policies that benefit the brain tumor community. NBTS grant programs are effective for academic researchers, inclusive of industry expertise, and promising for the patient community. All funding is open to both the domestic and international research communities. The Innovation Research Grant Program supports catalytic transformative projects that will significantly move the field forward. These may include out-of-the-box projects or research that is critical to move therapies down the pipeline. Research that represents an incremental advance is not considered innovative. NBTS will accept Innovation Letters of Intent throughout the year. Researchers in academic or industry labs and at all stages of their career may be funded through this program.
Proper citation: National Brain Tumor Society (RRID:SCR_004744) Copy
The Alabama Head Injury Foundation (AHIF) was founded in 1983 to increase public awareness of Traumatic Brain Injury (TBI) and to stimulate the development of supportive services. Today, AHIF is among the largest state brain injury associations in the nation with model programs and statewide services. Its mission is to improve the quality of life for people who have survived traumatic brain injuries and for their families. Whether the injury is mild or severe the life of the injured person and their family is changed forever. The impact can be both emotionally and financially devastating. AHIF provides the information to help clients and families understand the results of injury. AHIF helps access available resources and provides services and programs which meet the unique needs of individuals with traumatic brain injury (TBI) as well as spinal cord injury (SCI) in certain programs.
Proper citation: Alabama Head Injury Foundation (RRID:SCR_004580) Copy
http://www.floridabraintumor.com/homepage.htm
The mission of the Florida Brain Tumor Association (FBTA) is to provide hope, support and education to brain tumor survivors, their families and friends; to conquer brain tumors by funding research into their causes and cures; and to enrich the quality of life of those touched by brain tumors. In October, 1991, the Florida Brain Tumor Association (formerly South Florida Brain Tumor Association) began due to a desperate need from brain tumor survivors and families who were searching for support and a safe place to share their life changing experiences. Beginning in Boca Raton, Florida, as a grass roots organization and a handful of people, the first support group was conceived. Today, there are many additional FBTA support groups, from coast to coast in the state of Florida. The Florida Brain Tumor Association (FBTA) has become a major force in the brain tumor community. We host many fundraisers yearly, donating funds for research to brain tumor centers. The FBTA has hosted over 20 three day conferences, seminars and meetings, attracting thousands of survivors, families and health care professionals in the United States and Canada. Many of the most renowned physicians in the world travel from far and near to present at FBTA conferences. We are proud and grateful for their commitment and dedication to our cause. The FBTA is a not-for-profit 501(c)(3) organization that is supported by contributions from individuals, corporations, and foundations. We are the only organization of this kind, relying on the strength and dedication of our members, who are brain tumor survivors, family members and friends. Our Medical Advisory Board is also voluntary; we are very thankful to them for their generous gifts of time.
Proper citation: Florida Brain Tumor Association (RRID:SCR_004739) Copy
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