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The Brain Tumor Action Network is a not-for-profit 501(c)(3) organization established to bring awareness to the general public about brain tumors and to educate and empower brain tumor survivors, their families and friends. We foster grassroots advocacy on federal and state legislative issues affecting brain tumor survivors, their families and friends by providing information on brain tumor-related public issues and effective advocacy. BTAN has the following goals: * To encourage those living with brain tumors, their families and friends to become advocates for brain tumor awareness. * To foster grassroots advocacy on federal and state legislative issues affecting brain tumor survivors, their families and friends by providing information (and training) on brain tumor related public issues and effective advocacy. * To work independently and in collaboration with other brain tumor related organizations on behalf of the brain tumor community family. * To increase brain tumor awareness nationally through the Hidden Under Our Hats, National Brain Tumor Awareness Project in Washington, DC and at various treatment centers, conferences and fund raisers. * To raise funds to support specific research projects. * To create a PILOT respite care program for brain tumor survivors and their families at Moffitt Cancer Center & Research Institute (Tampa, FL). The respite care fund would assist brain tumor patients and their family members with additional care and support from home health care workers.
Proper citation: Brain Tumor Action Network (RRID:SCR_004733) Copy
An interactive, visual database containing more than 350 small molecule pathways found in humans. More than 2/3 of these pathways (>280) are not found in any other pathway database. SMPDB is designed specifically to support pathway elucidation and pathway discovery in metabolomics, transcriptomics, proteomics and systems biology. It is able to do so, in part, by providing exquisitely detailed, fully searchable, hyperlinked diagrams of human metabolic pathways, metabolic disease pathways, metabolite signaling pathways and drug-action pathways. All SMPDB pathways include information on the relevant organs, subcellular compartments, protein cofactors, protein locations, metabolite locations, chemical structures and protein quaternary structures. Each small molecule is hyperlinked to detailed descriptions contained in the HMDB or DrugBank and each protein or enzyme complex is hyperlinked to UniProt. All SMPDB pathways are accompanied with detailed descriptions and references, providing an overview of the pathway, condition or processes depicted in each diagram. The database is easily browsed and supports full text, sequence and chemical structure searching. Users may query SMPDB with lists of metabolite names, drug names, genes / protein names, SwissProt IDs, GenBank IDs, Affymetrix IDs or Agilent microarray IDs. These queries will produce lists of matching pathways and highlight the matching molecules on each of the pathway diagrams. Gene, metabolite and protein concentration data can also be visualized through SMPDB''s mapping interface. All of SMPDB''s images, image maps, descriptions and tables are downloadable.
Proper citation: Small Molecule Pathway Database (RRID:SCR_004844) Copy
http://www.pencerbraintrust.com/
The Gerry & Nancy Pencer Brain Trust is a not-for-profit organization with a mandate to make a difference in the quality of life of people living with brain tumors. This registered charity is the primary source of funding for The Gerry & Nancy Pencer Brain Tumor Centre, and carries out annual fundraising events to support its'' ongoing research and patient care activities. The Gerry & Nancy Pencer Brain Tumor Centre is located in Toronto, Canada at the world-renowned Princess Margaret Hospital. The Centre provides multidisciplinary care, treatment, support, and education for brain tumor patients and their families, and promotes brain tumor research in the hopes of one day finding a cure for brain cancer. All of this is made possible through your very generous donations.
Proper citation: Gerry and Nancy Pencer Brain Trust (RRID:SCR_004762) Copy
The Pediatric Brain Tumor Foundation (PBTF) is a nonprofit organization dedicated to eradicating childhood brain tumors and providing support to families. It is a 501(c)(3) nonprofit charitable organization that seeks to * find the cause of and cure for childhood brain tumors by supporting medical research * increase public awareness about the severity and prevalence of childhood brain tumors * aid in the early detection and treatment of childhood brain tumors * support a national database on all primary brain tumors * provide educational and emotional support for children and families affected by this life-threatening disease. As the world''s largest non-governmental source of funding for childhood brain tumor research, we''re dedicated to not only eradicating this disease, but to providing support to families. Our educational resources deliver comfort and hope to families in need of information, and our college scholarship program gives brain tumor survivors a boost for the future. Through our efforts to raise public awareness, more attention has been focused on this deadly disease. Whether addressing congressional briefings or funding international conferences, the PBTF is an unwavering advocate. Together, we''re making a difference in the lives of children with brain tumors. And with your continued help, we will cure the kids!
Proper citation: Pediatric Brain Tumor Foundation (RRID:SCR_004755) Copy
The Oklahoma Brain Tumor Foundation (OKBTF) is a nonprofit organization that provides education, advocacy and support for Oklahomans with brain tumors and their families to improve their quality of life and help find a cure. Founded by Nancy Thomason after the death of her son Cade Thomason to a brain stem PNET tumor on February 17, 2000, she vowed to fight the disease in honor and memory of her son Cade. OKBTF is dedicated to meeting the needs of Oklahoma families, caregivers and patients affected by primary brain or central nervous system tumors. We work to provide for needs through education, advocacy, research and service. Whatever your needs, whether financial, physical, mental or spiritual, we will work with you to fight the battle. Here you will find many of the services we offer in support of families just like yours, who are confused, hurting and just wanting straight answers. Feel free to browse around, get to know us, see what we are doing to help and send us your comments or questions... We are here for you.
Proper citation: Oklahoma Brain Tumor Foundation (RRID:SCR_004748) Copy
Common repository for diverse human microbiome datsets and minimum reporting standards for Common Fund Human Microbiome Project.
Proper citation: HMP Data Analysis and Coordination Center (RRID:SCR_004919) Copy
http://vision.ucsf.edu/hortonlab/index.html
Devise better ways to prevent and treat vision loss due to amblyopia and strabismus, and to advance medical science by understanding the human visual system. Various Images, Videos and Talks related to the research are available. In the Laboratory for Visual Neuroscience at the University of California, San Francisco, we are seeking to discover how visual perception occurs in the human brain. The function of the visual system is to guide our behavior by providing an efficient means for the rapid assimilation of information from the environment. As we navigate through our surroundings, a continuous stream of light images impinges on our eyes. In the back of each eye a light-sensitive tissue, the retina, converts patterns of light energy into electrical discharges known as action potentials. These signals are conveyed along the axons of retinal ganglion cells to the lateral geniculate body, a relay nucleus in the thalamus. Most of the output of the lateral geniculate body is relayed directly to the primary visual cortex (striate cortex, V1), and then to surrounding visual association areas. To understand the function of the visual pathways, our research is focused on 5 major themes: * Organization of Primary Visual Cortex * Mapping of Extrastriate Visual Cortex * Amblyopia and Visual Development * Strabismus and Visual Suppression * The Human Visual Cortex
Proper citation: UCSF Laboratory for Visual Neuroscience (RRID:SCR_004913) Copy
https://hirnetwork.org/project/hirncc
Consortium that provides infrastructure to promote communication and collaboration among current and future HIRN participants, facilitating scientific advances and the sharing of data, tools, and reagents among HIRN members and the research community at large.
Proper citation: HIRN Coordinating Center (RRID:SCR_016395) Copy
https://hirnetwork.org/consortium/chib
Consortium that is an independent research initiative of the Human Research Information Network (HIRN). It is combining advances in beta cell biology and cell biology with tissue engineering technologies to develop microdevices that support functional human islets.
Proper citation: HIRN Consortium on Human Islet Biomimetics (RRID:SCR_016199) Copy
https://github.com/MRCIEU/PhenoSpD
Software toolkit for phenotypic correlation estimation and multiple testing correction (Spectral Decomposition, SpD) for human phenome using genome-wide association study (GWAS) summary statistics. It is a command line R based tool.
Proper citation: PhenoSpD (RRID:SCR_016359) Copy
Portal for lung histochemistry data. For structural and molecular data regarding normal perinatal and postnatal lung development in the mouse and human. For public sharing of data sets, establishing a repository of young human lung tissues obtained through organ donor organizations, and developing a comprehensive lung ontology .Contains lung images and transcriptomic, proteomic, and lipidomic human and mouse data and provides scientific information to stimulate interest in research careers. Used to serve as a research resource and public education tool.
Proper citation: LungMap (RRID:SCR_016347) Copy
https://www.humancellatlas.org
Software tool as a catalog of comprehensive reference of human cells based on their stable properties, transient features, locations and abundances. Map to show the relationships among its elements. Open data international collaborative project involving diverse scientific communities to provide a framework for understanding cellular dysregulation in human disease.
Proper citation: Human Cell Atlas (RRID:SCR_016530) Copy
Platform for analysis of the genetics of cardiovascular disease.Used for searching and analysis of human genetic information linked to myocardial infarction, atrial fibrillation and related traits while protecting the integrity and confidentiality of the data.
Proper citation: Cardiovascular Disease Knowledge Portal (RRID:SCR_016536) Copy
https://commonfund.nih.gov/hubmap
Project to facilitate research on single cells within tissues by supporting data generation and technology development to explore the relationship between cellular organization and function, as well as variability in normal tissue organization at the level of individual cells. Framework for functional mapping the human body with cellular resolution.Designed to support diverse spatial and non-spatial omics and imaging data types and to integrate with a wide range of analysis workflows.
Proper citation: The Human BioMolecular Atlas Program (RRID:SCR_016922) Copy
Project to ethically obtain and evaluate human kidney biopsies from participants with Acute Kidney Injury (AKI) or Chronic Kidney Disease (CKD), create a kidney tissue atlas, define disease subgroups, and identify critical cells, pathways, and targets for novel therapies. Used to develop the next generation of software tools to visualize and understand the various components of kidney diseases and to optimize data collection. Multi site collaboration comprised of patients, clinicians, and investigators from across the United States.
Proper citation: Kidney Precision Medicine Project (RRID:SCR_016920) Copy
https://www.mc.vanderbilt.edu/victr/dcc/projects/acc/index.php/Main_Page
A national consortium formed to develop, disseminate, and apply approaches to research that combine DNA biorepositories with electronic medical record (EMR) systems for large-scale, high-throughput genetic research. The consortium is composed of seven member sites exploring the ability and feasibility of using EMR systems to investigate gene-disease relationships. Themes of bioinformatics, genomic medicine, privacy and community engagement are of particular relevance to eMERGE. The consortium uses data from the EMR clinical systems that represent actual health care events and focuses on ethical issues such as privacy, confidentiality, and interactions with the broader community.
Proper citation: eMERGE Network: electronic Medical Records and Genomics (RRID:SCR_007428) Copy
Project focused on cerebral aneurysms and provides integrated decision support system to assess risk of aneurysm rupture in patients and to optimize their treatments. IT infrastructure has been developeded for management and processing of vast amount of heterogeneous data acquired during diagnosis.
Proper citation: aneurIST (RRID:SCR_007427) Copy
An interdisciplinary group of scientists and clinicians who study the human brain using a variety of imaging, recording, and computational techniques. Their primary goal is to bridge non-invasive imaging technologies to the underlying neurophysiology of brain neuronal circuits for a better understanding of healthy human brain function, and mechanisms of disruption of this function in diseases such as Alzheimer's, epilepsy and stroke. The other goal of the MMIL is to develop and apply advanced imaging techniques to understanding the human brain and its disorders. In order to ground these methodological developments in their underlying neurobiology, invasive studies in humans and animals involving optical and micro physiological measures are also performed. These methodologies are applied to understanding normal function in sleep, memory and language, development and aging, and diseases such as dementia, epilepsy and autism.
Proper citation: Multimodal Imaging Laboratory (RRID:SCR_008071) Copy
Resource for experimentally validated human and mouse noncoding fragments with gene enhancer activity as assessed in transgenic mice. Most of these noncoding elements were selected for testing based on their extreme conservation in other vertebrates or epigenomic evidence (ChIP-Seq) of putative enhancer marks. Central public database of experimentally validated human and mouse noncoding fragments with gene enhancer activity as assessed in transgenic mice. Users can retrieve elements near single genes of interest, search for enhancers that target reporter gene expression to particular tissue, or download entire collections of enhancers with defined tissue specificity or conservation depth.
Proper citation: VISTA Enhancer Browser (RRID:SCR_007973) Copy
http://genome.wustl.edu/projects/detail/human-gut-microbiome/
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on August 19,2022. Human Gut Microbiome Initiative (HGMI) seeks to provide simply annotated, deep draft genome sequences for 100 cultured representatives of the phylogenetic diversity documented by 16S rRNA surveys of the human gut microbiota. Humans are supra-organisms, composed of 10 times more microbial cells than human cells. Therefore, it seems appropriate to consider ourselves as a composite of many species - human, bacterial, and archaeal - and our genome as an amalgamation of human genes and the genes in ''our'' microbial genomes (''microbiome''). In the same sense, our metabolome can be considered to be a synthesis of co-evolved human and microbial traits. The total number of genes present in the human microbiome likely exceeds the number of our H. sapiens genes by orders of magnitude. Thus, without an understanding of our microbiota and microbiome, it not possible to obtain a complete picture of our genetic diversity and of our normal physiology. Our intestine is home to our largest collections of microbes: bacterial densities in the colon (up to 1 trillion cells/ml of luminal contents) are the highest recorded for any known ecosystem. The vast majority of phylogenetic types in the distal gut microbiota belong to just two divisions (phyla) of the domain Bacteria - the Bacteroidetes and the Firmicutes. Members of eight other divisions have also been identified using culture-independent 16S rRNA gene-based surveys. Metagenomic studies of complex microbial communities residing in our various body habitats are limited by the availability of suitable reference genomes for confident assignment of short sequence reads generated by highly parallel DNA sequencers, and by knowledge of the professions (niches) of community members. Therefore, HGMI, which represents a collaboration between Washington University''s Genome Center and its Center for Genome Sciences, seeks to provide simply annotated, deep draft genome sequences for 100 cultured representatives of the phylogenetic diversity documented by 16S rRNA surveys of the human gut microbiota.
Proper citation: Human Gut Microbiome Initiative (RRID:SCR_008137) Copy
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