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http://www.scienceexchange.com/facilities/multiphoton-microscopy-core-rochester
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 16,2024.The mission of the URSMD Multiphoton Core Facility is to provide state-of-the-art multiphoton imaging capabilities to further the biomedical and bio-optical research at the URSMD and the University of Rochester with emphasis on intravital imaging and systems physiology. The Multiphoton Core Facility provides access to an Olympus Fluoview 1000 AOM-MPM imaging system and a Spectra-Physics MaiTai HP DeepSee Ti:Sa laser system with dispersion compensation. Further capabilities include engineering applications for opto-electronics and spectroscopy. Initial meeting with the director regarding the design of the experiments begins the process. Imaging will be initially performed by highly skilled staff to make sure all features of software are added for the study, thereafter, the investigator is trained until they are able to operate the microscope independently. Also offered is a blood gas analysis machine and supporting equipment.
Proper citation: URMC Multiphoton Microscopy Core (RRID:SCR_012362) Copy
https://www.moffitt.org/research-science/shared-resources/tissue/
Biorepository resource with mission of proper collection, handling, processing and storage of irreplaceable biological specimens to support spectrum of related basic science, translational and clinical research. Provides expertise in nucleic acid extractions, quantification, aliquoting and quality assurance; liquid specimen centrifugation, processing and aliquoting; histological tissue processing, immunohistochemistry and tissue microarray microtomy; pathologist consultation services. Tissue Core operations are divided into four distinct pillars of service that work collaboratively to ensure specimen quality is maintained from procurement to preservation.
Proper citation: Moffitt Cancer Center Tissue Core Facility (RRID:SCR_012364) Copy
https://www.urmc.rochester.edu/research/electron-microscope.aspx
Electron Microscopy Resource supports ultra-structural interrogation of tissues, biologic solutions and nanomaterials for investigators utilizing transmission electron microscopy (TEM), scanning electron microscopy (SEM) and cryo-TEM.
Proper citation: University of Rochester Medical Center Electron Microscopy Core Facility (RRID:SCR_012366) Copy
http://www.scienceexchange.com/facilities/macromolecular-x-ray-crystallography-core-facility--2
X-ray crystallography is the principal technique used to determine three-dimensional structures of biological macromolecules. The central goal of the UNC Crystallography Core Facility is to provide the support and infrastructure necessary to enable individual investigators of any experience level to initiate and successfully complete a structural biology project. The facility is state of the art, offering a variety of services in these three areas: crystallization, x-ray diffraction, structure determination. The primary mission of the MX Facility is to work with researchers here at UNC, however, we are also able to work with researchers at non-UNC academic institutions and commercial companies.
Proper citation: UNC School of Medicine Macromolecular X-Ray Crystallography Core Facility (RRID:SCR_012327) Copy
http://www.scienceexchange.com/facilities/magnetic-resonance-laboratory-georgia-tech
The Nanomedicine Research Institute Magnetic Resonance Laboratory at Georgia Tech operates a Bruker Pharmascan 7T with a magnet bore of 160 mm. We have a large expertise in the use of MRI as a tool in Biomedical and Chemical Engineering. Previous research projects were concerned with: MRI of anatomical preparations; evaluation of tumor growth; bio-compatibility of implants; cardiac MRI; Diffusion Tensor Imaging; pharmacokinetics; fluid ingress and distribution in complex substrates; flow MRI; 1H, 19F and 13P in vivo spectroscopy and relaxometry; development of MRI contrast agents; solid-state MRI.
Proper citation: Georgia Tech Magnetic Resonance Laboratory (RRID:SCR_012326) Copy
https://www.med.unc.edu/csb/pep/
Core specializes in production of pure, functional proteins for structural, biophysical, and biochemical studies. Has ability to produce and purify milligram amount of protein.
Proper citation: University of North Carolina at Chapel Hill School of Medicine Protein Expression and Purification Core Facility (RRID:SCR_012328) Copy
http://www.scienceexchange.com/facilities/east-quad-nmr-facility-hms-harvard
Formerly the NERCE NMR Resource. Nuclear magnetic resonance spectroscopy is a powerful tool for studying structural and conformational parameters of molecules. This tool is vital for the chemical analysis of both small molecules (like those discovered in small-molecule screens) and large molecules, such as carbohydrates and proteins found to have potential biologic importance. This is a user-based NMR facility; users run their own experiments on the NMR spectrometer.
Proper citation: HMS East Quad NMR Facility (RRID:SCR_012295) Copy
http://nextgen.mgh.harvard.edu
Core facility that provides the following services: NextGen sequencing, Data Analysis. The NextGen Core is a collaboration between the Department of Molecular Biology, the Center for Human Genetics Research, the Center for Computational Biology, and the Executive Committee on Research (ECOR). Currently, the Core operates using a single Ilumina HiSeq instrument, accompanied by Illumina''''s cBot for cluster generation. This upgrade from our Genome Analyzer II doubled our capacity and greatly increased the data amount, quality, and stability over extra-long reads. The Core is located in the state-of-the-art Richard Simches Research Center on Cambridge St. as part of the MGH main campus in Boston. The many multi-investigator groups in the building - including those that study human genetics, stem cells, genomics, and more - make it the perfect location for the Core to service the researchers in those groups. The majority of customers come from MGH, but they also service customers at other academic medical centers and industry.
Proper citation: MGH NextGen Sequencing Core (RRID:SCR_012294) Copy
http://www.scienceexchange.com/facilities/antibody-core-facility
The primary objective of our facility is to produce monoclonal antibody-producing hybridoma cell lines for UNC investigators. The core develops monoclonal antibodies in mice, rats and hamsters. The core can assist in the screening of hybridomas of interest by ELISA or flow cytometry. The facility can also produce large amounts of crude antibody in vitro for investigators as well as purify both polyclonal and monoclonal antibodies from tissue culture media or ascites.
Proper citation: UNC School of Medicine Antibody Core Facility (RRID:SCR_012330) Copy
http://www.scienceexchange.com/facilities/yale-pathology-tissue-services
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 15,2024. Mission- Developmental Histology The mission of the Developmental Histology unit is to provide 1. Timely high quality histology services to the Yale community 2. Access to tissue services from Yale Pathology archives 3. To maximize the value of the resources in the Yale Pathology Tissue Archive. 4. To provide Tissue Microarrays to assess multiple tissue samples Mission- Yale Pathology Tissue Services To provide the maximum amount and quality of human tissue for research at Yale University without impacting diagnostic quality, accuracy and safety in anatomic pathology.
Proper citation: Yale Pathology Tissue Services (RRID:SCR_012290) Copy
http://www.scienceexchange.com/facilities/analytical-ultracentrifugation-facility
The Analytical Ultracentrifugation Facility located at the University of Connecticut engages in collaborative research as well as training scientists, technicians, and students. The Facility has three Beckman XL-I ultracentrifuges along with associated instruments, hardware and computers. In addition, University scientists are on hand to provide user support and advice.
Proper citation: UConn Analytical Ultracentrifugation Facility (RRID:SCR_012340) Copy
Core facility that positions digital imaging resources right where the research is being done: in Harvard Medical School''s quad-based basic science departments. The convenience of these locations makes it easy for researchers to access digital imaging expertise when faced with research imaging questions. This accessibility and convenience is supplemented by substantial web-based assistance, making Research Imaging Solutions a 24/7 resource. Seminars, Workshops and printed training materials guide faculty, students, post-docs and lab personnel on supported imaging hardware and software products. Supported hardware and software packages includes: Adobe products including Acrobat, Photoshop, and Illustrator; ACD Canvas; Microsoft Office applications including Word, PowerPoint and Excel; film recorders, slide and flatbed scanners, and color output devices such as color laser printers, poster printers and photo quality printers.
Proper citation: HMS Research Imaging Solutions (RRID:SCR_012302) Copy
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 24,2024. IBBR DNA Sequencing Facility currently offers its customers NextGen sequencing.
Proper citation: UMD Sequencing Core - Institute of Bioscience and Biotechnology Research (RRID:SCR_012428) Copy
http://www.scienceexchange.com/facilities/experimental-therapeutics-program
The Experimental Therapeutics Program (ETP) is a program established within the unique MNI environment to pursue a mission of bridging basic research in neurobiology and immunology with human studies of neurological and immune-mediated diseases. The ETP accomplishes this mission through the establishment of core laboratory platforms that integrate fundamental research activities with rigorous studies on human biological samples derived from well-characterized patient populations. The goal of the program is to expedite the development and formal evaluation of emerging therapies aimed at halting and ultimately reversing disability caused by neurological disease.
Proper citation: McGill Experimental Therapeutics Program (RRID:SCR_012306) Copy
Core provides molecular biotechnology services and current molecular genetic methods. Services include DNA and RNA Extraction, transgenic mouse genotyping, Human Cell line Authentication, Sanger DNA Sequencing, Next-Generation sequencing platforms, Microsatellite DNA Typing, Agena multiplex SNP Genotyping, Real-time PCR, NanoString Gene Expression Analysis. Specializes in custom workflows that couple services with specific research needs.
Proper citation: Arizona Genetics Core (RRID:SCR_012429) Copy
http://www.scienceexchange.com/facilities/protein-production-analysis-core
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 25,2024. Sanford-Burnham''s Protein Production Core offers state-of-the-art resources with advanced biochemical engineering and bioprocessing capabilities. Specialized protein production scale-up services (65L bacterial or 25-50L insect/mammalian cell production) include optimization of production runs. Analytical services include measurement of protein-protein and protein-small molecule interactions using a variety of approaches such as surface plasmon resonance and isothermal titration calorimetry. Assistance in experimental design and technical support are also provided by the Core''s knowledgeable staff.
Proper citation: Sanford-Burnham Protein Production and Analysis Core (RRID:SCR_012272) Copy
http://www.neurodiscovery.harvard.edu/research/neurobehavior_laboratory.html
Core facility that provides the following services: Surgery/necropsy service. Mouse models have become a popular and successful approach to elucidating the physiological and pathological roles of individual genes and are truly crucial to accelerate the development of effective treatments and cures for Alzheimer''''s, Parkinson''''s, ALS, MS and other neurodegenerative diseases. The increasing demand for mouse behavioral studies within the neuroscience community has led the Harvard NeuroDiscovery Center to develop a major new, state of the art mouse behavior laboratory, located in the Longwood medical area and carefully designed to meet the exacting standards required for this type of work. The NeuroBehavior Laboratory (NBL) will provide the Harvard community and other investigators access to a broad range of reliable behavioral/cognitive tests necessary to analyze and interpret the impact of a genetic, surgical or pharmacologic manipulation on specific behaviors. They can provide: * Assistance with experimental design. * Support for grant applications that have a significant component of mouse neurobehavioral research. * Full, fee-for-service, mouse behavioral testing services. * Training in all aspects of mouse neurobehavioral testing. * Assistance with data analysis and interpretation.
Proper citation: HNDC NeuroBehavior Laboratory Core (RRID:SCR_012396) Copy
http://www.scienceexchange.com/facilities/meg-mcgill
MEG (Magnetoencephalography) is a neuroimaging technology for cognitive and clinical brain research. In a nutshell, MEG measures non-invasively the tiny magnetic fields generated by neuronal currents. A unique asset of MEG imaging is its unrivaled temporal resolution, reaching the millisecond time scale across the entire brain volume. On the clinical side, MEG has been typically indicated for the pre-surgical work-up of severe, drug-resistant epilepsy and the functional pre-surgical mapping of brain tumors. There is however great potential to use MEG as an instrument of choice to investigate other neurological syndromes and neuropsychiatric disorders (e.g., stroke, dementia, movement disorders, depression, etc.). Overall, MEG has strong value in revealing the dynamics of brain activity involved in subject''''s perception, cognition and responses: it has provided unique insight on the time-resolved processes ruling brain functions (resting-state dynamics, language, motor control, visual and auditory perception, etc.) and dysfunctions (movement disorders, tinnitus, chronic pain, dementia, etc.). MEG(at)McGill provides a full-suite of services related to MEG and MEG/EEG studies. This includes a variety of training programs for use of the MEG and related data acquisition and analysis software, Brainstorm.
Proper citation: MEG(at)McGill (RRID:SCR_012277) Copy
http://www.scienceexchange.com/facilities/center-for-structural-biology
The CSB provides an integrated platform of expertise, infrastructure and education to foster a wider use of structural biology by the UNC community. The CSB mission is to make structural biology available as a general tool to any researcher. Structures of macromolecules at atomic resolution have helped to revolutionize modern biology. Structural insight is often crucial for understanding the functions of biological macromolecules, including their interactions with small ligands (such as substrates, inhibitors, drugs) and other macromolecules (nucleic acids and/or proteins). Consequently, structural biology represents one of the pillars of basic biomedical research; it is indispensable for deciphering the details of life processes and for understanding the differences between natural and diseased states. Building on such insights, structural biology can assist in devising novel therapies, e.g., through structure-based or structure-aided drug design. The enormous information content available in high-resolution, three-dimensional structures has sparked the desire of non-structural biologists to examine the structures of the macromolecules that they study. Structural biology is technically demanding, and it requires highly specialized expertise. The CSB removes or reduces these barriers that usually prevent general researchers from engaging in structural biology-based projects by themselves.
Proper citation: UNC School of Medicine Center for Structural Biology (RRID:SCR_012430) Copy
https://unclineberger.org/tissueculture/
Supply center and provides UNC Lineberger members and UNC colleagues with tissue culture products including stocks media, media supplements, serum, salt solutions, antibiotics, cell culture flasks and dishes, and many other in vitro cell culture and molecular biology-related items, kits and cell lines. Cell lines include normal and transformed mammalian, avian, insect, amphibian/reptile, and hybridoma cells. Services include checking Fetal Bovine Serum for quality and efficacy. TCF partners with Genetica Cell Line Services to offer qPCR-based Mycoplasma contamination testing for cell or DNA samples. Utilizes Genetica Cell Line Services for STR profiling of cell lines.
Proper citation: University of North Carolina Lineberger Comprehensive Cancer Center Tissue Culture Core Facility (RRID:SCR_012432) Copy
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