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http://archives.niddk.nih.gov/patient/aask/aask.aspx
Clinical trial investigating whether a specific class of antihypertensive drugs (beta-adrenergic blockers, calcium channel blockers, or angiotensin converting enzyme inhibitors) and/or the level of blood pressure would influence progression of hypertensive kidney disease in African Americans. The initiative consisting of 21 clinical centers and a data-coordinating center is followed by a Continuation of AASK Cohort Study to investigate the environmental, socio-economic, genetic, physiologic, and other co-morbid factors that influence progression of kidney disease in a well-characterized cohort of African Americans with hypertensive kidney disease. Only patients who were previously in the randomized trial are eligible for the cohort study. A significant discovery was made in the treatment strategy for slowing kidney disease caused by hypertension. Angiotensin-converting enzyme (ACE) inhibitors, compared with calcium channel blockers, were found to slow kidney disease progression by 36 percent, and they drastically reduced the risk of kidney failure by 48 percent in patients who had at least one gram of protein in the urine, a sign of kidney failure. ACE inhibitors have been the preferred treatment for hypertension caused by diabetes since 1994; however, calcium channel blockers have been particularly effective in controlling blood pressure in African Americans. The AASK study now recommends ACE inhibitors to protect the kidneys from the damaging effects of hypertension. The Continuation of AASK Cohort Study will be followed at the clinical centers. The patients will be provided with the usual clinical care given to all such patients at the respective centers. Baseline demographic information, selected laboratory tests, and other studies are being obtained at the initiation of the Continuation Study. The patients will be seen quarterly at the centers, and some selected studies done at these visits. Samples will be obtained and stored for additional studies and analyses at a later date.
Proper citation: AASK Clinical Trial and Cohort Study (RRID:SCR_006985) Copy
Re-annotated gene expression / proteomics data from GEO by relating all probe IDs to Entrez Gene IDs once every three months, enabling you to find data from GEO, and compare them from different platforms and species. Platform Annotations adds the latest annotations to any uploaded probe / gene ID list file. Platform Comparison compares any two platforms to find corresponding probes mapping to the same gene. Cross-species mapping maps platform annotations to other species. Gene Search finds deposited platforms and samples in GEO that contain a list of genes. GPL ID Search finds the GPL ID (GEO platform ID) for your array. You can also download the latest annotations files for all arrays and their comprehensive universal gene identifier table, which relates all types of gene / protein / clone identifiers to Entrez Gene IDs for all species. Note: The database was last updated on 4/30/2011. They have successfully mapped 54932732 individual probes from 385099 GEO samples measuring 3519 GEO platforms across 217 species.
Proper citation: Array Information Library Universal Navigator (RRID:SCR_006967) Copy
http://archives.niddk.nih.gov/patient/bach/bach.aspx
An epidemiologic study being conducted in the Boston metropolitan area to examine the prevalence of symptoms for health problems such as interstitial cystitis, urinary incontinence, benign prostatic hyperplasia, prostatitis, hypogonadism, and sexual function. Of interest to the survey are health disparities and inequalities. BACH is especially concerned with lack of adequate health insurance, lack of access to adequate medical care, and how these problems influence patterns of disease. The study also focuses on social determinants of disease that are over and above the contribution of individual characteristics and risk factors. To achieve a randomly sampled population, four neighborhoods were divided into 12 strata and from them investigators selected census blocks. Households were then randomly selected from the census blocks and sampled to identify eligible study participants. Investigators conduct a two-hour, in-home, bilingual field interview of all eligible participants, looking at symptoms and asking questions about lifestyle, physical activity, alcohol use, nutrition, demographics, and morbidity. They also conduct a detailed inventory of medications, both prescribed and over-the-counter, and take two non-fasting blood samples for hormone, cholesterol, and lipid levels that will be stored for future studies. By the time the study ends, approximately 6,000 men and women, ages 30 to 79, from four Boston area neighborhoods that have density levels proportionate with minority populations will have been interviewed in their homes. One third of the randomly sampled population will be African American; one third, Hispanic; and one third, Caucasian.
Proper citation: Boston Area Community Health Survey (RRID:SCR_007115) Copy
Biorepository of clinical, metabolomic, and microbiome samples from adolescents with obesity as they undergo lifestyle modification.Biorepository is available as shared resource.
Proper citation: Pediatric Obesity Microbiome and Metabolism Study (RRID:SCR_021071) Copy
https://crispresso.pinellolab.partners.org/submission
Software suite of tools to qualitatively and quantitatively evaluate outcomes of genome editing experiments in which target loci are subject to deep sequencing and provides integrated, user friendly interface. Used for analysis of CRISPR-Cas9 genome editing outcomes from sequencing data. CRISPResso2 provides accurate and rapid genome editing sequence analysis.Used for analysis of deep sequencing data for rapid and intuitive interpretation of genome editing experiments.
Proper citation: CRISPResso (RRID:SCR_021538) Copy
https://masst.gnps2.org/microbemasst/
Web taxonomically informed mass spectrometry search tool, tackles limited microbial metabolite annotation in untargeted metabolomics experiments. Leveraging database of over 60,000 microbial monocultures, users can search known and unknown MS/MS spectra and link them to their respective microbial producers via MS/MS fragmentation patterns.
Proper citation: microbeMASST (RRID:SCR_024713) Copy
A software program that allows users to visualize and interpret human metabolim and expression profiling data by providing users with a bioinformatics framework. Its features include bulding and analyzing networks of genes and compounds, identifying enriched pathways from expression profiling data, and visualizing changes in metabolite data.
Proper citation: Metscape (RRID:SCR_014687) Copy
http://www.type2diabetesgenetics.org/
Portal and database of DNA sequence, functional and epigenomic information, and clinical data from studies on type 2 diabetes and analytic tools to analyze these data. .Provides data and tools to promote understanding and treatment of type 2 diabetes and its complications. Used for identifying genetic biomarkers correlated to Type 2 diabetes and development of novel drugs for this disease.
Proper citation: Accelerating Medicines Partnership Type 2 Diabetes Knowledge Portal (AMP-T2D) (RRID:SCR_003743) Copy
https://www.proteinspire.org/MOPED/
An expanding multi-omics resource that enables rapid browsing of gene and protein expression information from publicly available studies on humans and model organisms. MOPED also serves the greater research community by enabling users to visualize their own expression data, compare it with existing studies, and share it with others via private accounts. MOPED uniquely provides gene and protein level expression data, meta-analysis capabilities and quantitative data from standardized analysis utilizing SPIRE (Systematic Protein Investigative Research Environment). Data can be queried for specific genes and proteins; browsed based on organism, tissue, localization and condition; and sorted by false discovery rate and expression. MOPED links to various gene, protein, and pathway databases, including GeneCards, Entrez, UniProt, KEGG and Reactome. The current version of MOPED (MOPED 2.5) The current version of MOPED (MOPED 2.5, 2014) contains approximately 5 million total records including ~260 experiments and ~390 conditions.
Proper citation: MOPED - Model Organism Protein Expression Database (RRID:SCR_006065) Copy
Research center for hematology research. It provides services through four scientific core facilities: the Experimental Mouse Resources Core, the Optical Microscopy Services Core, the Angiogenesis Core, and the Flow Cytometry Core in addition to the Enrichment Program of the Center.
Proper citation: Indiana University Cooperative Center of Excellence in Hematology (RRID:SCR_015343) Copy
http://zfrhmaps.tch.harvard.edu/cemh/
Research center investigating molecular hematology through mouse and zebrafish models.
Proper citation: Boston Children's Hospital Center of Excellence in Molecular Hematology (RRID:SCR_015348) Copy
http://www.cumc.columbia.edu/derc/
Research center which provides research support for investigators pursuing research on diabetes and metabolic disorders.
Proper citation: Columbia Diabetes Research Center (RRID:SCR_015075) Copy
http://hms-dbmi.github.io/scde/index.html
Software package that implements a set of statistical methods for analyzing single-cell RNA-seq data, including differential expression analysis (Kharchenko et al.) and pathway and geneset overdispersion analysis (Fan et al.)
Proper citation: SCDE (RRID:SCR_015952) Copy
http://www.cfrc.pitt.edu/index.html
Research center whose goal is to understand and translate the basic mechanisms of cystic fibrosis. It uses the molecular and cell biology of CFTR, CFTR mutants, infection, and inflammation with the overall theme of translating preclinical science into clinical investigations.
Proper citation: Cystic Fibrosis Center University of Pittsburgh (RRID:SCR_015400) Copy
Center that includes over seventy investigators engaged in basic and translational research in diabetes and related metabolic disorders, and their complications. It contains four Research Cores that serve for innovative and translational research.
Proper citation: Indiana Diabetes Research Center (RRID:SCR_015080) Copy
Network helps to organize and support collaborative research related to loss of functional beta cell mass in Type 1 Diabetes (T1D). Project consists of four independent research initiatives: Consortium on Beta Cell Death and Survival (CBDS), Consortium on Human Islet Biomimetics (CHIB), Consortium on Modeling Autoimmune Interactions (CMAI), Consortium on Targeting and Regeneration (CTAR), and Human Pancreas Analysis Program (HPAP).
Proper citation: Human Islet Research Network (HIRN) (RRID:SCR_014393) Copy
http://www.mouse-genome.bcm.tmc.edu/ENU/MutagenesisProj.asp
THIS RESOURCE IS NO LONGER IN SERVICE. For updated mutant information, please visit MMRRC or The Jackson Laboratory. Produces, characterizes, and distributes mutant mouse strains with defects in embryonic and postembryonic development. The goal of the ENU Mutagenesis project III is to determine the function of genes on mouse Chromosome 11 by saturating the chromosome with recessive mutations. The distal 40 cM of mouse Chr 11 exhibits linkage conservation with human Chromosome 17. We are using the chemical N-ethyl-N-nitrosourea (ENU) to saturate wild type chromosomes with point mutations. By determining the function of genes on a mouse chromosome, we can extrapolate to predict function on a human chromosome. We expect many of the new mutants to represent models of human diseases such as birth defects, patterning defects, growth and endocrine defects, neurological anomalies, and blood defects. Because many of the mutations we expect to isolate may be lethal or detrimental to the mice, we are using a unique approach to isolate mutations. This approach uses a balancer chromosome that is homozygous lethal and carries a dominant coat color marker to suppress recombination over a reasonable interval.
Proper citation: Mouse Mutagenesis Center for Developmental Defects (RRID:SCR_007321) Copy
http://www.med.upenn.edu/molecular/core_culture.shtml
Core facility that maintains a centralized repository of cells and reagents pertinent to digestive, liver and pancreatic disease research. It also provides training for labs in new cell culture (2D and 3D) techniques.
Proper citation: University of Pennsylvania Center for Molecular Studies in Digestive and Liver Diseases Cell Culture Core (RRID:SCR_015621) Copy
Center whose goal is to integrate bench science with clinical investigation, in support of its vision to understand and cure human liver diseases.
Proper citation: UCSF Liver Center (RRID:SCR_015595) Copy
http://livercenter.ucsf.edu/cell-biology-core
Core whose purpose is providing primary and immortalized liver cells for experimental use as well as other material such as human liver cells, primary hepatocytes, and immortalized cell lines.
Proper citation: UCSF Liver Center Cell Biology Core (RRID:SCR_015600) Copy
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