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http://www.fda.gov/nctr/science/centers/toxicoinformatics/maqc/
The National Center for Toxicological Research (NCTR), FDA's internationally recognized research center, plays a critical role in FDA's mission. The unique scientific expertise of NCTR is critical in supporting FDA product centers and their regulatory roles. The NCTR is an important research component of the FDA that plays a critical role in the missions of FDA and DHHS to promote and protect public health. * NCTRin partnership with researchers from government, academia, and industrydevelops, refines, and applies current and emerging technologies to improve safety evaluations of FDA-regulated products. * NCTR fosters national and international collaborations to improve and protect public health and enhance the quality of life for the American people. Through the training of scientists from around the world, as well as FDA staff, NCTR researchers spread the principles of regulatory science globally. * NCTR conducts FDA research with the goal to develop a scientifically sound basis for regulatory decisions and reduce risks associated with FDA-regulated products. NCTR represents the FDA on key committees of the National Toxicology Program (NTP), a program that evaluates the effects of chemicals on health. Over the past 30 years, the NTP and NCTR have conducted studies on FDA-nominated compounds, providing data to support science-based regulatory decisions.
Proper citation: National Center for Toxicological Research (RRID:SCR_002943) Copy
The mission of Pathway Genomics is to empower you with the most secure, comprehensive and affordable personal genomic information available and to become your partner in utilizing that information to improve your health and wellness. Pathway is the only DNA testing service with an on-site federal and state CLIA-licensed laboratory. This means it offers: - Better Science: Its certified geneticists are on-staff and on-site in our own state-of-the-art laboratory in California. Their 10,600 square foot, high-complexity CLIA licensed lab facility is equipped with the latest high-throughput robotics and Affymetrix, Illumina and Sequenom genotyping equipment. As scientists committed to staying on the cutting-edge, they diligently monitor all new developments in the rapidly evolving DNA research field allowing us to provide you immediate access to more meaningful markers than any other DNA testing firm. - Better Security: Because Pathway Genomics has its own laboratory, your DNA never leaves the building, and is never shared with third parties. At Pathway Genomics the integrity of your genetic material and information are protected. Instead, enjoy the security of our proprietary DNA Lockbox. Everyone has the right to know the secrets hidden within their own DNA. That's why Pathway has created the most secure, comprehensive and affordable way to unlock those secrets. This way you can: - Identify genetic health and drug response - Personalize your medical care - Help your doctor help you - Uncover your ancestral path - Explore the traits that make you unique With Personal DNA Testing, you can take preventative steps to improve your future, and even extend your life. Pathway Genomics provides cutting-edge research and easy-to-read scientific information customized for you, and you alone, based on your genes and your lifestyle. For the first time in human history, modern science has made it possible for you to learn your genetic predisposition for more than 90 diseases and conditions, drug responses and pre-pregnancy carrier status. With this powerful knowledge and our easy-to-understand guidance, you can modify your health regime so that you may live a healthier, longer life. DNA testing will discover more about your personal heritage than you ever thought possible. We uncover your deep ancestry by taking giant leaps into the past, going back more than 10,000 years. We test both your mitochondrial DNA, which is passed down from mother to child and reveals your direct maternal ancestry; and your Y chromosome (males only), which is passed down from father to son and reveals your direct paternal ancestry. If you're like most people, you've always wondered about the genes you have inherited and what traits you will pass on to future generations. Discover your genetically inherited predispositions and characteristics and whether they are beneficial or potentially harmful. You may also find that some traits are simply fun to uncover.
Proper citation: Pathway Genomics (RRID:SCR_002883) Copy
http://senselab.med.yale.edu/neurondb
Database of three types of neuronal properties: voltage gated conductances, neurotransmitter receptors, and neurotransmitter substances. It contains tools that provide for integration of these properties in a given type of neuron and compartment, and for comparison of properties across different types of neurons and compartments.
Proper citation: NeuronDB (RRID:SCR_003105) Copy
http://www.mrc-cbu.cam.ac.uk/Imaging
Portal where neuroimaging studies are carried out using a Siemens 3T Tim Trio Magnetic Resonance Imaging (or MRI) scanner that is wholly dedicated to studies in Cognitive Neuroscience. From emotions and memories to language and learning, functional neuroimaging is being applied in many different areas of Cognitive Neuroscience. In many cases, this research relies upon support from healthy volunteers although neuroimaging studies are also being conducted in various clinical populations, including depression, anxiety, Parkinson's disease and Alzheimer's disease.
Proper citation: CBU Imaging Wiki (RRID:SCR_003014) Copy
http://www.biomarkersconsortium.org/
Consortium serving to develop and qualify promising biomarkers in order to help accelerate the delivery of successful new technologies, medicines and therapies for prevention, early detection, diagnosis and treatment of disease. Current core disease areas of focus include Cancer, Inflammation and Immunity, Metabolic Disorders, and Neuroscience. One of the most difficult tasks facing biomarker assessment and evaluation is harmonizing the approaches of various stakeholders--government, industry, non-profits and foundations, providers, and academic institutions. Consortium founding members and other partners recognize the critical need for a coordinated cross-sector partnership effort. The Biomarkers Consortium brings together the expertise and resources of various partners to rapidly identify, develop, and qualify potential high-impact biomarkers. Biomarkers Consortium Goals: * Facilitate the development and qualification of biomarkers using new and existing technologies; * Help qualify biomarkers for specific applications in diagnosing disease, predicting therapeutic response or improving clinical practice; * Generate information useful to inform regulatory decision making; * Make consortium project results broadly available to the entire scientific community.
Proper citation: Biomarkers Consortium (RRID:SCR_003121) Copy
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 5, 2023. Knowledge base of genetic associations and human genome epidemiology including information on population prevalence of genetic variants, gene-disease associations, gene-gene and gene- environment interactions, and evaluation of genetic tests. This tool explores HuGENet, the Human Genome Epidemiology Network, which is a global collaboration of individuals and organizations committed to the assessment of the impact of human genome variation on population health and how genetic information can be used to improve health and prevent disease. What does HuGE Navigator offer? *HuGEpedia - an encyclopedia of human genetic variation in health and disease, includes, Phenopedia and Genopedia. Phenopedia allows you to look up gene-disease association summaries by disease, and Genopedia allows you to look up gene-disease association summaries by gene. In general, HuGEpedia is a searchable database that summarizes published articles about human disease and genetic variation, including primary studies, reviews, and meta-analyses. It provides links to Pubmed abstracts, researcher contact info, trends, and more. *HuGEtools - searching and mining the literature in human genome epidemiology, includes, HuGE Literature Finder, HuGE Investigator Browser, Gene Prospector, HuGE Watch, Variant Name Mapper, and HuGE Risk Translator. *HuGE Literature Finder finds published articles in human genome epidemiology since 2001. The search query can include genes, disease, outcome, environmental factors, author, etc. Results can be filtered by these categories. It is also possible to see all articles in the database for a particular topic, such as genotype prevalence, pharmacogenomics, or clinical trial. *HuGE Investigator Browser finds investigators in a particular field of human genome epidemiology. This info is obtained using a behind-the-scenes tool that automatically parses PubMed affiliation data. *Gene Prospector is a gateway for evaluating genes in relation to disease and risk factors. This tool allows you to enter a disease or risk factor and then supplies you with a table of genes associated w/your query that are ranked based on strength of evidence from the literature. This evidence is culled from the HuGE Literature Finder and NCBI Entrez Gene - And you're given the scoring formula. The Gene Prospector results table provides access to the Genopedia entry for each gene in the list, general info including links to other resources, SNP info, and associated literature from HuGE, PubMed, GWAS, and more. It is a great place to locate a lot of info about your disease/gene of interest very quickly. *HuGE Watch tracks the evolution of published literature, HuGE investigators, genes studied, or diseases studied in human genome epidemiology. For example, if you search Trend/Pattern for Diseases Studied you'll initially get a graph and chart of the number of diseases studied per year since 1997. You can refine these results by limiting the temporal trend to a category or study type such as Gene-gene Interaction or HuGE Review. *Variant Name Mapper maps common names and rs numbers of genetic variants using information from SNP500Cancer, SNPedia, pharmGKB, ALFRED, AlzGene, PDGene, SZgene, HuGE Navigator, LSDBs, and user submissions. *HuGE Risk Translator calculates the predictive value of genetic markers for disease risk. To do so, users must enter the frequency of risk variant, the population disease risk, and the odds ratio between the gene and disease. This information is necessary in order to yield a useful predictive result. *HuGEmix - a series of HuGE related informatics utilities and projects, includes, GAPscreener, HuGE Track, Open Source. GAPscreener is a screening tool for published literature on human genetic associations; HuGE Track is a custom track built for HuGE data in the UCSC Genome Browser; and Open Source is infrastructure for managing knowledge and information from PubMed.
Proper citation: HuGE Navigator - Human Genome Epidemiology Navigator (RRID:SCR_003172) Copy
http://irc.cchmc.org/software/pedbrain.php
Brain imaging data collected from a large population of normal, healthy children that have been used to construct pediatric brain templates, which can be used within statistical parametric mapping for spatial normalization, tissue segmentation and visualization of imaging study results. The data has been processed and compiled in various ways to accommodate a wide range of possible research approaches. The templates are made available free of charge to all interested parties for research purposes only. When processing imaging data from children, it is important to take into account the fact that the pediatric brain differs significantly from the adult brain. Therefore, optimized processing requires appropriate reference data be used because adult reference data will introduce a systematic bias into the results. We have shown that, in the in the case of spatial normalization, the amount of non-linear deformation is dramatically less when a pediatric template is used (left, see also HBM 2002; 17:48-60). We could also show that tissue composition is substantially different between adults and children, and more so the younger the children are (right, see also MRM 2003; 50:749-757). We thus believe that the use of pediatric reference data might be more appropriate.
Proper citation: CCHMC Pediatric Brain Templates (RRID:SCR_003276) Copy
Non-profit biomedical research organization developing predictors of disease and accelerating health research through creation of open systems, incentives, and standards. Formed to coordinate and link academic and commercial biomedical researchers through Commons that represents new paradigm for genomics intellectual property, researcher cooperation, and contributor evolved resources.
Proper citation: Sage Bionetworks (RRID:SCR_003384) Copy
http://www.humanvariomeproject.org/
Project facilitating the establishment and maintenance of standards systems and infrastructure for the worldwide collection and sharing of all genetic variations effecting human disease. The Human Variome Project produces two categories of recommendations: HVP Standards and HVP Guidelines. HVP Standards are those systems, procedures and technologies that the Human Variome Project Consortium has determined should be used by the community. These carry more weight than the less prescriptive HVP Guidelines, which cover those systems, procedures and technologies that the Human Variome Project Consortium has determined would be beneficial for the community to adopt. HVP Standards and Guidelines are central to supporting the work of the Human Variome Project Consortium and cover a wide range of fields and disciplines, from ethics to nomenclature, data transfer protocols to collection protocols from clinics. They can be thought of as both technical manuals and scientific documents, and while the impact of HVP Standards and Guidelines differ, they are both generated in a similar fashion. A document has been generated both as a guide for those collecting and distributing data and for those developing policy. Items should include those generated by HGVS/HVP collaborators as well as those generated by groups of individual Societies and Standards bodies in all relevant fields worldwide.
Proper citation: Human Variome Project (RRID:SCR_003492) Copy
http://www.humanconnectomeproject.org/
A multi-center project comprising two distinct consortia (Mass. Gen. Hosp. and USC; and Wash. U. and the U. of Minn.) seeking to map white matter fiber pathways in the human brain using leading edge neuroimaging methods, genomics, architectonics, mathematical approaches, informatics, and interactive visualization. The mapping of the complete structural and functional neural connections in vivo within and across individuals provides unparalleled compilation of neural data, an interface to graphically navigate this data and the opportunity to achieve conclusions about the living human brain. The HCP is being developed to employ advanced neuroimaging methods, and to construct an extensive informatics infrastructure to link these data and connectivity models to detailed phenomic and genomic data, building upon existing multidisciplinary and collaborative efforts currently underway. Working with other HCP partners based at Washington University in St. Louis they will provide rich data, essential imaging protocols, and sophisticated connectivity analysis tools for the neuroscience community. This project is working to achieve the following: 1) develop sophisticated tools to process high-angular diffusion (HARDI) and diffusion spectrum imaging (DSI) from normal individuals to provide the foundation for the detailed mapping of the human connectome; 2) optimize advanced high-field imaging technologies and neurocognitive tests to map the human connectome; 3) collect connectomic, behavioral, and genotype data using optimized methods in a representative sample of normal subjects; 4) design and deploy a robust, web-based informatics infrastructure, 5) develop and disseminate data acquisition and analysis, educational, and training outreach materials.
Proper citation: MGH-USC Human Connectome Project (RRID:SCR_003490) Copy
http://brainarray.mbni.med.umich.edu/Brainarray/Database/ProbeMatchDB/ncbi_probmatch_para_step1.asp
Matches a list of microarray probes across different microrarray platforms (GeneChip, EST from different vendors, Operon Oligos) and species (human, mouse and rat), based on NCBI UniGene and HomoloGene. The capability to match protein sequence IDs has just been added to facilitate proteomic studies. The ProbeMatchDB is mainly used for the design of verification experiments or comparing the microarray results from different platforms. It can be used for finding equivalent EST clones in the Research Genetics sequence verified clone set based on results from Affymetirx GeneChips. It will also help to identify probes representing orthologous genes across human, mouse and rat on different microarray platforms.
Proper citation: ProbeMatchDB 2.0 (RRID:SCR_003433) Copy
http://clendening.kumc.edu/dc/rti/
Database of images from medical and natural history texts, most of which were printed before 1800. They are organized by theme: diagnostics, human body, imaging, instruments, physician-patient culture, portraits, public health, reproduction, reproduction instruments, therapeutics. The Clendening History of Medicine Library and Museum is the rare books and manuscripts library of the University of Kansas Medical Center. We actively collect rare books as well as current works in the history of medicine, nursing, and the allied professions. The Library also supports the biomedical ethics and medical humanities curriculum by collecting contemporary secondary works in these areas. Under the auspices of its Museum, the Library also owns hundreds of medical artifacts.
Proper citation: Images from the Clendening Library (RRID:SCR_002379) Copy
The NTP is an interagency program whose mission is to evaluate agents of public health concern by developing and applying tools of modern toxicology and molecular biology. The program maintains an objective, science-based approach in dealing with critical issues in toxicology and is committed to using the best science available to prioritize, design, conduct, and interpret its studies. To that end, the NTP is continually evolving to remain at the cutting edge of scientific research and to develop and apply new technologies. More than 80,000 chemicals are registered for use in the United States. Each year, an estimated 2,000 new ones are introduced for use in such everyday items as foods, personal care products, prescription drugs, household cleaners, and lawn care products. We do not know the effects of many of these chemicals on our health, yet we may be exposed to them while manufacturing, distributing, using, and disposing of them or when they become pollutants in our air, water, or soil. Relatively few chemicals are thought to pose a significant risk to human health. However, safeguarding public health depends on identifying both what the effects of these chemicals are and at what levels of exposure they may become hazardous to humansthat is, understanding their toxicology. The program was created as a cooperative effort to: 1. Coordinate toxicology testing programs within the federal government. 2. Strengthen the science base in toxicology. 3. Develop and validate improved testing methods. 4. Provide information about potentially toxic chemicals to health, regulatory, and research agencies, scientific and medical communities, and the public. The need for a program like the NTP arose because of increasing scientific, regulatory, and Congressional concerns about the human health effects of chemical agents in our environment. Many human diseases were thought to be directly or indirectly related to chemical exposures; therefore, it was thought that decreasing or eliminating human exposures to those chemicals would help prevent some human disease and disability. Testing Information The NTP is an interagency program whose mission is to evaluate agents of public health concern by developing and applying the tools of modern toxicology and molecular biology. This involves conducting toxicological evaluations of substances of public health concern, developing and validating improved (sensitive, specific, rapid) testing methods, developing approaches and generating data to strengthen the science base for risk assessment, and communicating with all stakeholders. The NTP plays a critical role in providing needed scientific data, interpretations, and guidance concerning the appropriate uses of data to regulatory agencies and other groups involved with health-related research. Through its interactive relationship with regulatory agencies, the NTP plays an indirect, but important role in shaping public health policy. Study Data Searches The National Toxicology Program makes available data from more than 500 two-year, two species, toxicology and carcinogenesis studies collected by the NTP and its predecessor, the National Cancer Institute's Carcinogenesis Testing Program, are stored in a database at NIEHS. The NTP database also contains the results collected on approximately 300 toxicity studies from shorter duration tests and from genetic toxicity studies, which includes both in vitro and in vivo tests. In addition, test data from the immunotoxicity, developmental toxicity and reproductive toxicity studies are continually being added to this database. Partnerships Through relationships with regulatory agencies, the NTP has an indirect role in shaping public health policy. Federal and state government agencies rely on the scientific knowledge and its interpretation provided by the NTP to make credible decisions that protect public health and the environment. The NTP also plays a critical role in: 1. Fostering interagency collaborations in research and exposure assessment 2. Providing information to regulatory agencies about alternative methods for toxicity testing, interpretation 3. Exploring new technologies for evaluating how environmental agents cause disease NTP conferences and workshops provide an opportunity for researchers, regulatory, policy makers, and the public to examine issues together, exchange information, and reach agreement on future directions of toxicology and risk assessment. Postdoctoral Training Program Opportunities Applied Toxicology and Carcinogenesis Training Program Fellowship in Toxicological Pathology Fellowship in Laboratory Animal Medicine
Proper citation: National Toxicology Program: Department of Health and Human Services (RRID:SCR_002616) Copy
Forum within psychiatry and neurology aimed at providing updated evidence-based educational resources and information for health care professionals including an opportunity to exchange knowledge and experiences online. The CNSforum includes Educational resources, Clinical resources, Patient Websites, Publications, and a Community forum. Educational resources: * Brain Explorer - A graphical and educational presentation of the brain and the disorders affecting it, aimed at GPs and specialists in training. * Image Bank - A collection of CNS images for download and free use in presentations. Expert Talks Online presentations by leading experts on scientific topics. * Journal Links - A collection of links to websites of scientific journals in neurology and psychiatry. * Film Forum - Specialists discuss mainstream films with a psychiatric or neurological element from an educational point of view. Clinical resources: * Psychiatry Quality Measurement, PQM PQM is and electronic patient database/journal for use by psychiatrists. * Psychotropics - A database of psychotropic and neurological drugs. Rating scales Descriptions of and references to central scales used in psychiatry and neurology as well as an introduction to the topic. * Commented Articles - Commented articles written for CNSforum by leading international specialists. Patient Websites: * DepNet - An online community and information website for people affected by depression. * DementiaNet - An online community and information website for people affected by dementia and their relatives. * Publications (A catalogue of The Lundbeck Institute's publications on topics of clinical relevance in psychiatry and neurology.) * Institute Books, Institute Magazine Community forum: available only for former seminar participants and other members of The Lundbeck Institute Network., THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 15,2026.
Proper citation: CNS Forum (RRID:SCR_002777) Copy
http://www2.gsu.edu/~wwwvir/index.html
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on August 18,2025. The National B Virus Resource Center is located in the Viral Immunology Center of Georgia State Universitys Department of Biology. Their laboratory is studying viruses that directly affect the central nervous system of infected hosts. Current projects in the laboratory are focused on the molecular biology of human and nonhuman primate alphaherpesviruses and the diseases they cause, immune response characterization, antiviral strategies, including drug discovery and high-throughput drug screening within unique, high containment laboratory suites. They are also actively engaged in the study of unique reoviruses that have the capacity to infect the central nervous systems of non human primates, langur viruses, and a newly isolated mangaby herpesvirus. Alphaherpesviruses target the central nervous system of susceptible hosts, and subsequently establish latent infections generally without severely damaging the host. There may be an initial acute phase when the virus successfully replicates in peripheral tissue of the host. This replication, when it occurs, induces a series of specific immune functions that can serve as markers of infection. We use these markers to design, develop and implement diagnostic assays that will be useful during the management of clinical disease. Each herpesvirus coexists peacefully with the natural host in which it has co-evolved, but when the viruses for any reason find themselves no longer in the natural host, the usual host:parasite relationship may change dramatically. In some closely related hosts the virus can replicate and, in some cases, pathogenesis of the infection is radically more severe than that which occurs in the natural host. For example, this can be seen when New World monkeys are infected with humans herpesviruses, e.g., HSV-1 or HSV-2, or when humans are infected with B virus from a macaque, a member of the Old World monkey family. Their studies focus on the mechanisms by which virus kills the host and how that process can be circumvented with early identification, appropriate antiviral drugs, and in the future, effective vaccines. We continually screen the efficacy of existing as well as novel antiviral agents to inhibit the growth of viruses that can potentially cross into the human population, either through occupational exposure or through more subtle contact. Their laboratory provides a global resource funded by National Institutes of Healths National Center for Research Resources to assist in the identification of zoonotic disease transmissions and develop enhanced strategies to detect virus in macaques. They particularly focus on the transmission of B virus from Asian monkeys to humans who come in contact with them. Members of the genus Macaca include rhesus monkeys, cynomolgus macaques, snow macaques, as well as all other macaques. If the macaque is in the midst of the acute or recurrent infection with B, virus can be transmitted to people who handle these monkeys through cuts, scratches, splashes, bites, or even contaminated equipment or surfaces, i.e., fomites. To counter the effects of this virus, the NIH and Centers for Disease Control and Prevention have instituted a critical set of guidelines for institutions to follow in the event of exposures. Their laboratory provides immediate support to these cases to assist in the rapid diagnosis of B virus infections and to determine the efficacy of selected treatment. Lifetime patient monitoring is provided to identify possible reactivation disease and to better track this unique herpesvirus as it has begun its existence in the human populations. Sponsors: The viral immunology center is funded by National Institutes of Healths National Center for Research Resources.
Proper citation: Viral Immunology Center (RRID:SCR_001089) Copy
An antibody supply company that provides reagents targeting all human proteins. Atlas Antibodies develops reagents and antibodies for mass-spectrometry-based quantitative proteomics as well. Their production and development is based on the Human Protein Atlas (HPA) project, which released a complete tissue-based map of human protein expression using antibodies.
Proper citation: Atlas Antibodies (RRID:SCR_001137) Copy
https://services.healthtech.dtu.dk/services/NetNGlyc-1.0/
Server that predicts N-Glycosylation sites in human proteins using artificial neural networks that examine the sequence context of Asn-Xaa-Ser/Thr sequons. NetNGlyc 1.0 is also available as a stand-alone software package, with the same functionality as the service above. Ready-to-ship packages exist for the most common UNIX platforms.
Proper citation: NetNGlyc (RRID:SCR_001570) 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
Cre expressing mice under the control of promoters with a design focus on the brain. Each promoter is derived from human sequence, but the resulting expression is assessed in the mouse for the activation of a LacZ reporter gene by the Cre activity. Promoters tested as large MaxiPromoters (BACs inserted into the mouse genome) and MiniPromoters (plasmid-based sequences inserted either into the mouse genome or introduced within AAV viruses). The Cre-related project continues from the Pleiades Promoter Project. Here is the list of genes for which icre/ERT2 mice are currently in development: AGTR1, CARTPT, CLDN5, CLVS2, CRH, GABRA6, HTR1A, HTR1B, KCNA4, KDM5C, MKI67, NEUROD6, NKX6-1, NOV, NPY2R, NR2E1, OLIG2, POU4F2, SLITRK6, SOX1, SOX3, SOX9,, SPRY1, VSX2
Proper citation: CanEuCre (RRID:SCR_004159) 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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