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http://www.gladstone.ucsf.edu/gladstone/site/gind/
GIND provides a highly interactive academic environment and state-of-the-art research facilities that are ideal for training in neuroscience and biomedical research. GIND Investigators hold university appointments at UCSF and participate in educational activities, including the teaching and training of graduate students and postdoctoral fellows. Additionally, GIND is actively engaged in efforts to translate scientific discoveries into better treatments for major diseases of the nervous system. Sponsors: Support for GIND comes from the University of California at San Francisco.
Proper citation: Gladstone Institute of Neurological Disease (RRID:SCR_008072) 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
http://magnet.c2b2.columbia.edu/
The mission of the Center for the Multiscale Analysis of Genomic and Cellular Networks (MAGNet) is to develop novel Structural and Systems Biology methods and tools for the dissection of molecular interactions in the cell and for the interaction-based elucidation of cellular phenotypes. These tools are made freely available to the the members of the research community. They are also validated in the context of the Center''''s own research program through collaborative projects with experimental biologists. MAGNet is one of 7 National Centers for Biomedical Computing (NCBC). These Centers, in conjunction with individual investigator awards, are creating a networked effort to build the computational infrastructure for biomedical computing in the nation. The NCBC program is devoted to all facets of biomedical computing, from basic research in computational science to providing the tools and resources that biomedical and behavioral researchers need to do their work. In addition to carrying out fundamental research the NCBCs play a major role in educating and training researchers to engage in biomedical computing. MAGNet is also one of 12 inter-disciplinary Centers for Cancer Systems Biology (CCSBs), a component of the National Cancer Institute''''s Integrative Cancer Biology Program. The CCSBs provide a core framework for applying systems biology approaches to cancer research through the development and implementation of computational models of processes relevant to cancer prevention, diagnostics and therapeutics. The CCSBs seek to integrate experimental biology with mathematical modeling to foster new insights in the biology and new approaches to the management of cancer. MAGNet''''s Training Core ensures that the methods developed by the Center are integrated into the educational offerings of Columbia University''''s Medical School.
Proper citation: MAGNet - Multiscale Analysis of Genomic and Cellular Networks (RRID:SCR_004399) Copy
The Biomedical Research Program (PIB) of the School of Medical Sciences was created in 2007, after a Collaboration Protocol was established between UCA and the National Council of Scientific and Technical Research (CONICET). Research at PIB aims at unraveling the molecular, biochemical and genetic aspects of human diseases, therefore contributing to understanding complex pathologies. Research Groups include: * Molecular and Cell Biology Lab (LBCM) - Group leader: Tom��s A. Santa Coloma, Ph.D. * Nanotechnology Lab - Group leader: Tom��s A. Santa Coloma, Ph.D. * Molecular Neurobiology Lab - Group leader: Francisco J. Barrantes, Ph.D.
Proper citation: Biomedical Research Program UCA (RRID:SCR_004395) Copy
http://www.chdifoundation.org/
A private, not-for-profit research organization that serves as an international collaborative enabler in order to discover drugs that slow the progression of Huntington's disease (HD). The activities of CHDI extend from exploratory biology to the identification and validation of therapeutic targets, and from drug discovery and development to clinical studies and trials. CHDI works with biotech and pharmaceutical companies and funds and works with academic HD researchers at universities.
Proper citation: CHDI Foundation (RRID:SCR_004622) 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
The National Alliance for Medical Image Computing (NA-MIC) is a multi-institutional, interdisciplinary team of computer scientists, software engineers, and medical investigators who develop computational tools for the analysis and visualization of medical image data. The purpose of the Center is to provide the infrastructure and environment for the development of computational algorithms and open-source technologies, and then oversee the training and dissemination of these tools to the medical research community. Electronic resources provided by NA-MIC include software, data, tutorials, presentations, and more.
Proper citation: National Alliance for Medical Image Computing (RRID:SCR_004460) Copy
http://www.researchinformatics.org/
An open-access portal for discussion, information sharing, and collaboration among those working to advance the rapidly developing field of clinical research informatics (CRI). We hope that you find the content useful and that you use our interactive features to contribute your knowledge and experience for the benefit of our community. Research Informatics.org Contents include: * CRI Initiatives * CRI News * CRI Events * CRI Resources * CRI Wiki * CRI Forum * CRI Blog
Proper citation: ResearchInformatics.org (RRID:SCR_004487) Copy
http://scientificdatasharing.com/
While many data sharing programs exist worldwide, widespread sharing of raw data has not yet won across-the-board acceptance in the scientific community, and the very existence of all these databases makes the approach fractured at best. The Data Sharing Project, launched last year by University of California-San Francisco Professor Michael Weiner, has two goals: One is to make widespread raw data sharing a reality initially in the realm of medicine through creation of a repository system accessible to all researchers; the second goal is to foster broad scientific support for this move and its adoption in other fields of research. With major projects such as the Human Genome Project demonstrating the tremendous scientific breakthroughs made possible by data sharing and with the decline of technological barriers impeding such efforts, the time has come to work to achieve widespread sharing of raw data worldwide. The Data Sharing Project proposes to further this goal initially in the field of medicine by working to create a raw data sharing program that will serve as a model to other disciplines attempting to make their own way in this arena. The Northern California Institute for Research and Education (NCIRE) together with the University of California-San Francisco and support from the Michael J. Fox Foundation is now in the process of canvassing the scientific community to analyze the best possible data sharing program and practices to establish in the field of medicine.
Proper citation: Scientific Data Sharing Project (RRID:SCR_004481) Copy
https://krieger.jhu.edu/neuroscience
Undergraduate Program in Neuroscience offers broad overview of field, as well as more advanced training in one of four specialized areas: cellular and molecular, cognitive, computational, or systems neuroscience.
Proper citation: Johns Hopkins University; Undergraduate Neuroscience Program (RRID:SCR_004638) Copy
SysMO-DB is a project that is creating a web-based platform, and tooling, for finding, sharing and exchanging Data, Models and Processes in Systems Biology. It was designed to support the SysMO Consortium (Systems Biology for Micro-Organisms), but the principles and methods employed are equally applicable to other multi-site Systems Biology projects. All code is open source and available for download. SEEK, a component of SysMO-DB, is a private community collaboration and asset sharing platform for Systems Biology models, data and protocols serving 120 research institutions throughout Europe. SEEK is the main web-based access point to the system and provides an access control layer to enable researchers to restrict access to collaborators, colleagues or other individuals until they are ready to share with the whole consortium or the wider community. The main objectives of SysMO-DB are to: facilitate the web-based exchange of data between research groups within- and inter- consortia, and to provide an integrated platform for the dissemination of the results of the SysMO projects to the scientific community. We aim to devise a progressive and scalable solution to the data management needs of the SysMO initiative, that: * facilitates and maximizes the potential for data exchange between SysMO research groups; * maximizes the ''shelf life'' and utility of data generated by SysMO; * provides an integrated platform for the dissemination of the results of the SysMO projects to the scientific community; and * facilitates standardization of practices in Systems Biology for the interfacing of modeling and experimentation. We follow several key principles: * exploit what is already available, both within the consortium and outside it, and do not reinvent; * identify the least we can do to make a benefit and do this incrementally. SysMO-DB will soon be opening it up to the wider scientific community, but for now it is currently only available for those within the SysMO consortium.
Proper citation: SysMO-DB (RRID:SCR_004479) Copy
The Defense and Veterans Brain Injury Center (DVBIC) is a congressionally mandated collaboration of the Department of Defense (DoD) and Veterans Affairs (VA) health centers serving patients with traumatic brain injury (TBI). Its mission is to serve active duty military, their beneficiaries, and veterans with traumatic brain injuries (TBIs) through state-of-the-art clinical care, innovative clinical research initiatives and educational programs. DVBIC fulfills this mission through ongoing collaboration with military, VA and civilian health partners, local communities, families and individuals with TBI. In 2008, DVBIC''s mission expanded to include Force Health Protection and Management. This encompasses the following Department of Defense (DoD) programs: * TBI Surveillance * TBI Registry * Pre-deployment neurocognitive testing * Family Caregiver Curriculum * 15 year longitudinal study of TBI * Independent study of automated neurocognitive tests DVBIC has been named the Office of Responsibility or Executive Agency for these programs. The DVBIC multi-site network includes a growing number of DoD and VA hospitals as well as civilian TBI rehabilitation programs. Each DVBIC site works collaboratively to provide and improve TBI care for active duty military, veterans and their eligible beneficiaries. DVBIC''s multi-center network design and collaborations with forward medical commands allows for clinical innovation along the entire continuum of care: from initial injury in the war zone through to medical evacuation, acute care, rehabilitation and ultimately a return to community, family, and work or continued duty when possible. WHAT WE DO * Develop and provide advanced TBI-specific evaluation, treatment and follow-up care for military personnel, their beneficiaries, and veterans with mild to severe TBIs * Conduct clinical research that defines optimal care and treatment for individuals with TBI * Develop and deliver effective educational materials and programming for the prevention, assessment and treatment of TBI including the management of its continuing effects. DVBIC is specifically committed to the effort to prevent, treat, and provide education on TBI for US military members currently on active duty, National Guard and reservists recently injured in the line of duty, their beneficiaries, and retired military personnel. * Oversee congressionally-mandated DoD TBI programs All of the above are done through innovative collaborations among the Armed Forces, VA, federal agencies, and coordinating academic institutions.
Proper citation: Defense and Veterans Brain Injury Center (RRID:SCR_004505) Copy
Consortium conducting meta-analyses of genome-wide genetic data for psychiatric disease. Focused on autism, attention-deficit hyperactivity disorder, bipolar disorder, major depressive disorder, schizophrenia, anorexia nervosa (AN), Tourette syndrome (TS), and obsessive-compulsive disorder (OCD). Used to investigate common single nucleotide polymorphisms (SNPs) genotyped on commercial arrays, structural variation (copy number variation) and uncommon or rare genetic variation. To participate you are asked to upload data from your study to central computer used by this consortium. Genetic Cluster Computer serves as data warehouse and analytical platform for this study . When data from your study have been incorporated, account will be provided on central server and access to all GWAS genotypes, phenotypes, and meta-analytic results relevant to deposited data and participation aims. NHGRI GWAS Catalog contains updated information about all GWAS in biomedicine, and is usually excellent starting point to find comprehensive list of studies. Files can be obtained by any PGC member for any disease to which they contributed data. These files can also be obtained by application to NIMH Genetics Repository. Individual-level genotype and phenotype data requires application, material transfer agreement, and informed consent consideration. Some datasets are also in controlled-access dbGaP and Wellcome Trust Case-Control Consortium repositories. PGC members can also receive back cleaned and imputed data and results for samples they contributed to PGC analyses.
Proper citation: Psychiatric Genomics Consortium (RRID:SCR_004495) Copy
http://www.fishbase.org/home.htm
A global species database and encyclopedia of over 32,800 species and subspecies of fishes that is searchable by common name, genus, species, geography, family, ecosystem, references literature, tools, etc. It links to other, related databases such as the Catalog of Fishes, GenBack, and LarvalBase. It is associated with a partner journal, Acta Ichthyologica et Piscatoria. It is available in English, Greek, Spanish, Portuguese, French, Dutch, Italian, and German. Photo and video submissions are welcome. FishBase 2004 is also available on DVD or CD-ROMs with full information on 28,500 species. It comes together with the FishBase 2000 book and can be ordered for 95 US$ including air-mail.
Proper citation: FishBase (RRID:SCR_004376) Copy
A collaboration in which the National Institute on Drug Abuse, treatment researchers, and community-based service providers cooperatively develop, validate, refine, and deliver new treatment options to patients in Community Treatment Programs (CTPs). The partnership between CTPs and academic research leaders aims to achieve the following objectives: * Conducting studies of behavioral, pharmacological, and integrated behavioral and pharmacological treatment interventions of therapeutic effect in rigorous, multisite clinical trials to determine effectiveness across a broad range of community-based treatment settings and diversified patient populations; and * Ensuring the transfer of research results to physicians, clinicians, providers, and patients. The CTN, with its core of CTPs engaging diverse populations, is also designed to provide a platform for other studies, which would be funded under separate research grants. Three important ways to use the CTN are: to conduct ancillary studies in connection with CTN protocols; to utilize CTN Node facilities as a platform for investigations; and for Nodes to serve as home bases for NIH Training Centers and individual researchers who have NIH fellowships or career development awards.
Proper citation: National Drug Abuse Treatment Clinical Trials Network (RRID:SCR_004407) Copy
Public reference database supporting the XML family of markup language standards, XML vocabularies, and related structured information standards. It promotes and enables the use of open, interoperable, standards-based solutions which protect digital information and enhance the quality of data processing. The Cover Pages web site provides reference material on enabling technologies compatible with SGML/XML descriptive markup language standards and applications: object modeling, semantic nets, ontologies, authority lists, document production systems, and conceptual modeling. It also supplies references for social aspects of distributed and public sector concerns: privacy, open standards, patented technology embedded in standards, etc. NB. This statement and the resource itself are works in progress, subject to continuous revision.
Proper citation: Cover Pages (RRID:SCR_004955) Copy
RIKEN Brain Science Institute (BSI) has a mission to produce innovative research and technology leading to scientific discoveries of the brain. In addition, BSI aims to develop domestic and international brain researchers by creating an environment that will integrate various intellectual disciplines and from that convergence find solutions that will ultimately benefit society in the realms of medicine, engineering, business, and education. In striving toward this goal, BSI has become a leading international center for brain research with a reputation for discovery, innovation, training, and globalization of the scientific enterprise. Brain science is valuable not only for the advancement of science but also because it can greatly impact our society and economy. To meet these expectations, the Brain Science Institute (BSI) was established in 1997 as part of RIKEN, an independent research institution supported by the Japanese government.
Proper citation: RIKEN Brain Science Institute (RRID:SCR_004796) Copy
The Systems Biology Graphical Notation (SBGN) project aims to develop high quality, standard graphical languages for representing biological processes and interactions. Each SBGN language is based on the consensus of the broad international SBGN community of biologists, curators and software developers. Over the course of its development many individuals, organizations and companies made invaluable contributions to the SBGN through participating in discussions and meetings, providing feedback on the documentation and worked examples, adopting the standard and spreading the word. Circuit diagrams and Unified Modeling Language diagrams are just two examples of standard visual languages that help accelerate work by promoting regularity, removing ambiguity and enabling software tool support for communication of complex information. Ironically, despite having one of the highest ratios of graphical to textual information, biology still lacks standard graphical notations. The recent deluge of biological knowledge makes addressing this deficit a pressing concern. Toward this goal, we present the Systems Biology Graphical Notation (SBGN), a visual language developed by a community of biochemists, modelers and computer scientists. SBGN consists of three complementary languages: process diagram, entity relationship diagram and activity flow diagram. Together they enable scientists to represent networks of biochemical interactions in a standard, unambiguous way. We believe that SBGN will foster efficient and accurate representation, visualization, storage, exchange and reuse of information on all kinds of biological knowledge, from gene regulation, to metabolism, to cellular signaling. A list of software packages known to provide (or have started to develop) support for SBGN notations is available.
Proper citation: Systems Biology Graphical Notation (RRID:SCR_004671) Copy
http://cancer.osu.edu/Pages/index.aspx
As the Midwest''s first and Ohio''s only fully dedicated cancer hospital and research institute, The Ohio State University Comprehensive Cancer CenterArthur G. James Cancer Hospital and Solove Research Institute (OSUCCC-James) is one of the nation''s premier cancer centers for the prevention, detection and treatment of cancer. The OSUCCC-James is one of only 40 centers in the United States designated by the National Cancer Institute a Comprehensive Cancer Center. In addition, the OSUCCC-James is a founding member of the National Comprehensive Cancer Network (NCCN), an alliance of 21 of the world''s leading cancer centers that develops clinical practice guidelines to improve the quality and effectiveness of care provided to patients with cancer. The Ohio State cancer program is part of The Ohio State University, the largest public university in the nation. We are affiliated with The Ohio State University Medical Center, one of the largest and most diverse academic medical centers in the nation and the only academic medical center in central Ohio. The cancer program at Ohio State encompasses more than 200 comprehensive cancer center members from 13 of the 18 colleges at The Ohio State University and includes physicians from 16 specialties. The OSUCCCJames'' singular focus on cancer has led to multiple accomplishments that have changed the standards of care with respect to prevention, diagnosis and treatment, in a way that substantially improves outcomes for cancer patients.
Proper citation: OSUCCC-James (RRID:SCR_004790) Copy
A non-profit organization that promotes research on hearing and balance disorders. The Registry database allows researchers to perform simple searches to locate specimens of interest. The results show the laboratories where specimens that match the query are located. Investigators should contact the individual laboratories for studying the specimens or for access to the sections. The Registry also serves the public and the scientific community through the dissemination of public information on temporal bone donation and research, enrollment of temporal bone donors, publication of The Registry, a newsletter for researchers, conservation of existing human temporal bone collections, and professional educational activities for physicians and scientists.
Proper citation: National Temporal Bone Pathology Resource Registry (RRID:SCR_004705) Copy
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