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http://genomics.senescence.info/
Collection of databases and tools designed to help researchers study the genetics of human ageing using modern approaches such as functional genomics, network analyses, systems biology and evolutionary analyses. A major resource in HAGR is GenAge, which includes a curated database of genes related to human aging and a database of ageing- and longevity-associated genes in model organisms. Another major database in HAGR is AnAge. Featuring over 4,000 species, AnAge provides a compilation of data on aging, longevity, and life history that is ideal for the comparative biology of aging. GenDR is a database of genes associated with dietary restriction based on genetic manipulation experiments and gene expression profiling. Other projects include evolutionary studies, genome sequencing, cancer genomics, and gene expression analyses. The latter allowed them to identify a set of genes commonly altered during mammalian aging which represents a conserved molecular signature of aging. Software, namely in the form of scripts for Perl and SPSS, is made available for users to perform a variety of bioinformatic analyses potentially relevant for studying aging. The Perl toolkit, entitled the Ageing Research Computational Tools (ARCT), provides modules for parsing files, data-mining, searching and downloading data from the Internet, etc. Also available is an SPSS script that can be used to determine the demographic rate of aging for a given population. An extensive list of links regarding computational biology, genomics, gerontology, and comparative biology is also available.
Proper citation: Human Ageing Genomic Resources (RRID:SCR_007700) Copy
http://organelledb.lsi.umich.edu/
Database of organelle proteins, and subcellular structures / complexes from compiled protein localization data from organisms spanning the eukaryotic kingdom. All data may be downloaded as a tab-delimited text file and new localization data (and localization images, etc) for any organism relevant to the data sets currently contained in Organelle DB is welcomed. The data sets in Organelle DB encompass 138 organisms with emphasis on the major model systems: S. cerevisiae, A. thaliana, D. melanogaster, C. elegans, M. musculus, and human proteins as well. In particular, Organelle DB is a central repository of yeast protein localization data, incorporating results from both previous and current (ongoing) large-scale studies of protein localization in Saccharomyces cerevisiae. In addition, we have manually curated several recent subcellular proteomic studies for incorporation in Organelle DB. In total, Organelle DB is a singular resource consolidating our knowledge of the protein composition of eukaryotic organelles and subcellular structures. When available, we have included terms from the Gene Ontologies: the cellular component, molecular function, and biological process fields are discussed more fully in GO. Additionally, when available, we have included fluorescent micrographs (principally of yeast cells) visualizing the described protein localization. Organelle View is a visualization tool for yeast protein localization. It is a visually engaging way for high school and undergraduate students to learn about genetics or for visually-inclined researchers to explore Organelle DB. By revealing the data through a colorful, dimensional model, we believe that different kinds of information will come to light.
Proper citation: Organelle DB (RRID:SCR_007837) Copy
THIS RESOURCE IS NO LONGER IN SERVICE, documented on February 07, 2013. A framework for understanding human cognition, grounded in principles specifying the character of human cognitive processes, and constrained by properties, of the underlying neural mechanisms. The Center will exploit this framework to guide formulation of explicit, testable models of normal and disordered cognition, including models of the development of cognitive functions and of their disintegration as a result of brain damage or disease. This site is intended as a public service and as a focal point for exchange of ideas among the participants in the Interdisciplinary Behavioral Science Center (IBSC). Public areas of the site provide information about the Center as a whole and about the various projects in the Center, as well as web-accessible documents and tools that we are making available as a public service. A fundamental tenet is that cognition is an emergent phenomenon, arising from the interactions of cooperating processing elements organized into specialized populations. One aim of the center will be to investigate the utility of explicit models that are formulated in terms of this approach, addressing many aspects of cognition including semantic knowledge, language processing, cognitive control, perception, learning and memory. A second aim will also investigate the principles that are embodied in the models, including principles of learning, processing and representation. Learning will be a central focus, since it plays a crucial role in cognitive development, acquisition of skills, formation of memories, and remediation of cognitive functions. A third aim of the Center will be to incorporate constraints from neuroscience. Findings from neuroscience will guide the specification of the principles and the formulation of domain-specific details of particular models, and will provide target experimental observations against which to assess the adequacy of the models. In addition, the Center will make use of neurophysiological methods in animals and functional brain imaging in humans to test predictions and generate additional data needed to constrain and inform model development. The Center will provide training funds for interdisciplinary research fellowships, to train junior scientists in the convergent use of behavioral, computational, and neuroscience methodologies. The outcome of the Centers efforts will be a fuller characterization of the nature of human cognitive processes, a clearer formulation of the underlying principles, and a more complete understanding of normal and disordered functions across many domains of cognition. This Center includes eight projects dedicated to various aspects of cognition and various general issues that arise in the effort to build explicit models that capture different aspects of cognition, and also includes an administrative core to help foster integration and provide computing resources. * Project 1: Functional and Neural Organization of Semantic Memory * Project 2: Interactive Processes in Language: Lexical Processing * Project 3: Interactive Processes in Language: Sentence Processing * Project 4: Mechanisms of Cognitive Control * Project 5: Interactive Processes in Perception: Neurophysiology of Figure-Ground Organization * Project 6: Basic Mechanisms and Cooperating Systems in Learning Memory * Project 7: Age and Experience Dependent Processes in Learning * Project 8: Theoretical Foundations * Core: Integration, Computational Resources, and Administration
Proper citation: NIMH Interdisciplinary Behavioral Science Center (RRID:SCR_008085) Copy
A research center associated with the University of Pittsburgh that specializes in the diagnosis of Alzheimer's disease and related disorders. The overall objective of the ADRC is to study the pathophysiology of Alzheimer's disease, with the aim of improving the reliability of diagnosis of Alzheimer's and developing effective treatment strategies. Current research foci emphasize neuropsychiatry and neuropsychology, molecular genetics and epidemiology, basic neuroscience, and structural and functional imaging that aid in the diagnosis and treatment of Alzheimer's disease. Specific services at the ADRC include: comprehensive diagnostic evaluation of patients with suspected Alzheimer's disease and other forms of dementia; evaluation of memory, language, judgment, and other cognitive abilities; and education and counseling for patients and families.
Proper citation: University of Pittsburgh Alzheimer Disease Research Center (RRID:SCR_008084) Copy
Atlas of developing human brain for studying transcriptional mechanisms involved in human brain development. Consists of RNA sequencing and exon microarray data profiling up to sixteen cortical and subcortical structures across full course of human brain development, high resolution neuroanatomical transcriptional profiles of about 300 distinct structures spanning entire brain for four midgestional prenatal specimens, in situ hybridization image data covering selected genes and brain regions in developing and adult human brain, reference atlas in full color with high resolution anatomic reference atlases of prenatal (two stages) and adult human brain along with supporting histology, magnetic resonance imaging (MRI) and diffusion weighted imaging (DWI) data.
Proper citation: Allen Human Brain Atlas: BrainSpan (Atlas of the Developing Brain) (RRID:SCR_008083) Copy
Campaign to help educate the public about the symptoms of stroke and the importance of getting to the hospital quickly, with a wide range of materials about stroke prevention, treatment, and rehabilitation available through the site. The campaign includes outreach to consumers and health care professionals using mass media, grassroots outreach, partnerships, and community education.
Proper citation: Know Stroke Campaign (RRID:SCR_008073) Copy
An animated primer on the basics of DNA, genes, and heredity organized around three key concepts: Classical Genetics, Molecules of Genetics, and Genetic Organization and Control. The science behind each concept is explained by: animation, image gallery, video interviews, problem, biographies, and links.
Proper citation: DNA From The Beginning: AN Animated Primer on the Basics of DNA, Genes, and Heredity (RRID:SCR_008028) Copy
The E. coli Genome Project has the goal of completely sequencing the E. coli and human genomes. They began isolation of an overlapping lambda clonebank of E. coli K-12 strain MG1655. Those clones served as the starting material in our initial efforts to sequence the whole genome. Improvements in sequencing technology have since reached the point where whole-genome sequencing of microbial genomes is routine, and the human genome has in fact been completed. They initiated additional sequencing efforts, concentrating on pathogenic members of the family Enterobacteriaceae -- to which E. coli belongs. They also began a systematic functional characterization of E. coli K-12 genes and their regulation, using the whole genome sequence to address how the over 4000 genes of this organism act together to enable its survival in a wide range of environments.
Proper citation: E. coli Genome project (RRID:SCR_008139) Copy
http://www.dana.org/resources/brainweb/
BrainWeb provides information and links to validated sites about brain diseases and disorders. These include outside resources reviewed by scientific advisers, as well as articles in Dana publications. Sites listed in BrainWeb detail common brain diseases and disorders, and include general neuroscience and health resources. They offer descriptions of conditions, frequently asked questions, organization contacts, and sources for more information. BrainWeb and its links are suitable for lay readers, including students and educators, as well as people with brain disorders, their families, and caregivers.
Proper citation: Dana Foundation: BrainWeb (RRID:SCR_007996) Copy
http://www.scripps.edu/np/inia/index.html
Consortium set out to identify the molecular, cellular, and behavioral neuroadaptations that occur in the brain reward circuits associated with the extended amygdala and its connections. It is hypothesized that genetic differences and/or neuroadaptations in this circuitry are responsible for the individual differences in vulnerability to the excessive consumption of alcohol. Chronic exposure to alcohol results in neuroadaptive phenomena, including tolerance, sensitization, dependence, withdrawal, loss of control of drinking, and relapse that contribute to the development of excessive alcohol consumption. The INIA has the following goals: 1) To establish animal models to study specific neurobiological targets for vulnerability that lead to excessive consumption of alcohol at the molecular, cellular and neural circuit level of analysis, 2) To identify specific clusters of genes whose expression is regulated by alcohol and which are responsible for any given model of excessive alcohol consumption using gene expression arrays, differential display, mutagenesis directed at specific brain areas, and the development of new informatics tools to analyze and interpret gene expression, cellular circuitry and brain circuitry data with the use of transgenic and knockout approaches, and 3) To attract new and innovative investigators to the field of alcohol research by recruiting individuals for development of U01 grants and pilot projects and by developing online interactive capacity among INIA scientists and others, and by making the neuroinformatics integrated data sets accessible, searchable and interactive with other databases for all scientists interested in alcoholism research. The structure of INIA is envisioned as two domains, Dependence-induced drinking and Binge drinking, comprised of multiple U01 research grants. The flow of information within each domain moves from molecular, to cellular, to neurocircuitry levels of analysis. These U01s share information with the core facilities, which act as data depositories. The Administrative Core coordinates the flow of information among the Domains and Cores and disseminates the information back to the U01s. A Pilot Project program will identify exciting new areas for research and the continual recruitment of new investigators to the alcohol field. The INIA program is directed by an Administrative Core in close cooperation with the Animal Models, Gene Array and Neurocircuitry Cores via a Steering Committee and with the continual advice of the Scientific Advisory Committee.
Proper citation: Integrative Neuroscience Initiative on Alcoholism (RRID:SCR_008042) Copy
http://www.broad.mit.edu/mammals/dog
The genome of the domesticated dog, a close evolutionary relation to human, is a powerful new tool for understanding the human genome. Comparison of the dog with human and other mammals reveals key information about the structure and evolution of genes and genomes. The unique breeding history of dogs, with their extraordinary behavioral and physical diversity, offers the opportunity to find important genes underlying diseases shared between dogs and humans, such as cancer, diabetes, and epilepsy. The Canine Genome Sequencing Project produced a high-quality draft sequence of a female boxer named Tasha. By comparing Tasha with many other breeds, the project also compiled a comprehensive set of SNPs (single nucleotide polymorphisms) useful in all dog breeds. These closely spaced genomic landmarks are critical for disease mapping. By comparing the dog, rodent, and human lineages, researchers at the Broad Institute uncovered exciting new information about human genes, their evolution, and the regulatory mechanisms governing their expression. Using SNPs, researchers describe the strikingly different haplotype structure in dog breeds compared with the entire dog population. In addition, they show that by understanding the patterns of variation in dog breeds, scientists can design powerful gene mapping experiments for complex diseases that are difficult to map in human populations. Contribute Although the astounding generosity of Eli and Edythe L. Broad and several other venture philanthropists empowers our scientists to tackle many of the most important problems at the cutting edge of genomic medicine, there are many other critical challenges that they cannot yet pursue because of limited resources. We need additional visionary partners to join the Broads and the Broad Institute in transforming medicine with the power of genomics.
Proper citation: Dog Genome Project (RRID:SCR_008486) Copy
http://www.vet.ohio-state.edu/211.htm
Laboratory animals are used in nearly half of all research projects supported by the National Institutes of Health. Significant needs exist at the national level for skilled scientists trained to work with and interpret the data generated from the use of rodent animal models. In response to this national need a research training program has been established through funding by the National Centers for Research Resources to provide an environment for veterinarians (D.V.M. or V.M.D.) and D.V.M./Ph.D.''s to effectively utilize mouse models of human disease. Specifically, veterinarian scientists are trained in state of-the-art molecular and cellular techniques to systematically evaluate the mechanistic pathobiology and phenotype of experimental mouse models of human disease. The training program is coordinated through an established graduate program in the College of Veterinary Medicine, Department of VeterinaryBiosciences and supported by a unified group of basic and clinical scientists with ongoing collaborative programs at The Ohio State University and Children''s Hospital. The scientists have expertise in endocrinology, infectious disease, genetics, oncology, molecular biology, immunology, physiology, biochemistry, and pathology. Trainees gain knowledge and skills to fully understand and evaluate pathophysiologic alterations of murine models of human disease through both didactic coursework and applied training in pathology and molecular biology. In addition, trainees interact with our multidisciplinary faculty to identify the range of research problems that use murine models. They acquaint themselves with the ongoing basic and clinical research studies in the laboratories and clinical sites of the participating faculty, and select a research problem that utilizes a murine model for endpoint evaluation. Following the selection of a preceptor and research problem, the trainee participates in the design and performance of experiments, as well as analysis and presentation of data regarding a murine model. Trainees develop skills in clinical, gross, and histologic pathology, molecular and immunologic techniques, and use transgenic and immunodeficient mouse models to identify and characterize alterations in embryonic and postnatal development. Therefore, trainees acquire a broad background in molecular biology, genetics, pathology, laboratory animal medicine, as well as research design methodology to fulfill national needs in the development of skilled scientists in mouse pathobiology. :Sponsors: Mouse Pathology Training Grant is funded by the National Centers for Research Resources.
Proper citation: Mouse Pathology Training Grant (RRID:SCR_008300) Copy
http://ophid.utoronto.ca/navigator/
A software package for visualizing and analyzing protein-protein interaction networks. NAViGaTOR can query OPHID / I2D - online databases of interaction data - and display networks in 2D or 3D. To improve scalability and performance, NAViGaTOR combines Java with OpenGL to provide a 2D/3D visualization system on multiple hardware platforms. NAViGaTOR also provides analytical capabilities and supports standard import and export formats such as GO and the Proteomics Standards Initiative (PSI). NAViGaTOR can be installed and run on Microsoft Windows, Linux / UNIX, and Mac OS systems. NAViGaTOR is written in Java and uses JOGL (Java bindings for OpenGL) to support scalability, highlighting or suppressing of information, and other advanced graphic approaches.
Proper citation: Network Analysis, Visualization and Graphing TORonto (RRID:SCR_008373) Copy
THIS RESOURCE IS NO LONGER IN SERVICE, documented August 23, 2016. Vision Science is a large discipline at the ANU that is found in several teaching and research faculties and several large research institutes. About 85 research staff participate in all forms of vision science from machine vision, to neurophysiology, behaviour and cognition. The scale of analysis ranges from molecular to systems approaches and covers insect, vertebrate and human visual systems. Topics such as disease and development of the human visual system are also covered. CVS works to connect and sustain the component parts of the ANU vision science community.
Proper citation: Centre for Visual Sciences (RRID:SCR_008324) Copy
http://www.bitlifesciences.com
Information and human resource exchange services for academia and industries, professional and commercial societies from major industrial sectors and academic organizations. Events: Annual Drug Discovery Science & Technology (IDDST), World DNA and Genome Day celebrating the discovery of DNA double helix structure, Life science Forum, World AIDS Day, Pepcon Conference, iBio and World Cancer Congress.
Proper citation: BIT Life Sciences (RRID:SCR_008313) Copy
http://brainconnection.positscience.com/
An educational site providing accessible information about how the brain works and how people learn
Proper citation: Brain Connection (RRID:SCR_008315) Copy
http://degradome.uniovi.es/diseases.html
This resource has cataloged a total of 80 human hereditary diseases caused by mutations in protease-coding genes, which implies that more than 10% of the human protease genes are involved in human pathologies. They are classified in three groups: loss of function, gain of function, and an heterogeneous group including non-protease homologs (np), putative proteases, and hedgehog proteins with only autoprocessing activity. Type of inheritance is indicated by R (recessive) or D (dominant).
Proper citation: Human Hereditary Diseases of Proteolysis (RRID:SCR_008344) Copy
http://www.healthsystem.virginia.edu/internet/crr/ligand.cfm
This Core at the University of Virginia employs state-of-the-art methods to quantitate peptide and steroid reproductive hormones in blood and tissue. It also develops new methodology, prepares labeled reagents for immunoassays, immunocytochemistry and binding studies and assists in the transfer of technology to participating investigators. Available services: AMH ELISA, 3-ALPHA DIOL G ELISA (ON HOLD), ANDROSTENEDIONE RIA, CORTISOL HUMAN IMMULITE, CORTICOSTERONE RIA, DHEA ELISA, DHEA-SO4 HUMAN IMMULITE, DHT NON EXTRACTION RIA (ON HOLD), ESTRADIOL HUMAN & MOUSE BECKMAN COULTER RIA, ESTRADIOL RAT SIEMENS RIA, ESTRONE- RIA, FSH HUMAN IMMULITE, IGF-1 HUMAN IMMULITE, INHIBIN-A ELISA, INHIBIN-B ELISA, INSULIN HUMAN IMMULITE, LH HUMAN IMMULITE, MOUSE FSH RIA, MOUSE LH SANDWICH IRMA, PROGESTERONE RIA, PROINSULIN RIA, PROLACTIN HUMAN IMMULITE, 17a-OH-PROGESTERONE RIA, RAT FSH RIA, RAT LH SANDWICH IRMA, SHBG HUMAN IMMULITE, TESTOSTERONE RIA, SENSITIVE ESTRADIOL HUMAN & RAT RIA, SENSITIVE PROGESTERONE RIA, SENSITIVE TESTOSTERONE - RIA
Proper citation: UVA Center for Research in Reproduction Ligand Assay and Analysis Core (RRID:SCR_004318) Copy
http://en.wikibooks.org/wiki/Emergency_Medicine
Emergency Medicine is an Open-Content Textbook of Emergency Medicine. This wikibook is intended to be a collaborative communication between physicians, nurses, physician assistants, paramedics, EMTs and other healthcare providers. It is not intended for the general public. It is under development and inevitably contains many errors and omissions. As the information in this textbook can be edited by anyone, regardless of whether they are medically trained or not, it should not be used as a guide to treating yourself or anyone else! Contents * 1 SYMPTOMS AND PRESENTATIONS ** 1.1 GENERAL SYMPTOMS ** 1.2 HEAD AND NECK SYMPTOMS ** 1.3 CHEST SYMPTOMS ** 1.4 ABDOMINAL SYMPTOMS * 2 TOPICS ** 2.1 ABDOMINAL AND GASTROINTESTINAL DISORDERS ** 2.2 CARDIOVASCULAR DISORDERS ** 2.3 CUTANEOUS DISORDERS ** 2.4 DISASTER MEDICINE ** 2.5 ENDOCRINE, METABOLIC, AND NUTRITIONAL DISORDERS ** 2.6 ENVIRONMENTAL DISORDERS ** 2.7 HEAD, EAR, EYE, NOSE, THROAT DISORDERS ** 2.8 HEMATOLOGIC DISORDERS ** 2.9 IMMUNE SYSTEM DISORDERS ** 2.10 INFECTIOUS DISORDERS ** 2.11 MUSCULOSKELETAL DISORDERS (NONTRAUMATIC) ** 2.12 NERVOUS SYSTEM DISORDERS ** 2.13 OBSTETRICS AND GYNECOLOGY ** 2.14 RENAL AND UROGENITAL DISORDERS ** 2.15 THORACIC-RESPIRATORY DISORDERS ** 2.16 TOXICOLOGIC DISORDERS ** 2.17 TRAUMATIC DISORDERS * 3 TESTS ** 3.1 Imaging ** 3.2 Lab Investigations ** 3.3 Point of Care Testing * 4 TREATMENT ** 4.1 Procedures ** 4.2 Resuscitation ** 4.3 Other Treatment * 5 SPECIAL POPULATIONS * 6 PRACTICE AND ADMINISTRATION * 7 KNOWLEDGE AND COMMUNICATION
Proper citation: Emergency Medicine (RRID:SCR_004357) Copy
http://www.science.mcmaster.ca/biochem/faculty/truant/truantlab.htm
THIS RESOURCE IS NO LONGER IN SERVICE, documented on March 21, 2013. Laboratory portal of Ray Truant, PhD. It provides an image gallery and videos.
Proper citation: Ray Truant Lab (RRID:SCR_004301) Copy
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Welcome to the Neuroscience Information Framework Project, designed to serve the biomedical research community. NIF maintains the largest searchable collection of neuroscience data, the largest catalog of biomedical resources, and the largest ontology for neuroscience on the web. We welcome all feedback and suggestions and are actively looking for resource providers to make their resources accessible through NIF. Learn about the tools available to help you share your data and discover a dynamic inventory of Web-based neuroscience resources.
