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http://famu.eagle-i.net/i/00000137-5195-0786-f0f1-ede280000000
A laboratory equipped with laser-based flow cytometric instruments, the main one being the Becton Dickinson two-laser FACScalibur analyzer. This facility provides a resource for analytical and preparative studies of cells using flow cytometry to the FAMU biomedical researchers. This facility offers FACS acquisition and analysis for detecting cell surface or intracellular proteins, measuring apoptosis, cell cycle, cellular physiology that have both biomedical and clinical applications.
Proper citation: FAMU Flow cytometry laboratory (RRID:SCR_000877) Copy
http://harvard.eagle-i.net/i/0000012c-7441-2a90-c437-ff0b80000000
Core facility that provides the following services: Tissue trimming, cassetting, processing, and embedding, Cutting and staining of paraffin-embedded and cryostat sections, Immunohistochemistry for both routine and novel markers, In situ hybridization, using chromogenic or radioactive detection methods, Laser capture microdissection.
Tissue analysis is critical to validation and evaluation of animal models of human cancer, and human cancer tissues serve as the operating system for translational research. The facility supports a wide spectrum of cancer-relevant research, from basic studies on pathogenic mechanisms in cancer to translational research focused on the development of new tests for biomarkers that stratify patients and direct therapy. The Specialized Histopathology (SHP) Core, was created in 2005 by consolidating five histopathology cores into a single unit with two performance sites: Longwood, Directed by Jon Aster and based at the Brigham and Women?s Hospital and MGH, Directed by Anat Stemmer-Rachamimov and based at Massachusetts General Hospital East in Charlestown. The SHP Core provides professional and technical research pathology services to DF/HCC investigators working in diverse organisms (e.g., rodents, fish, and monkeys) or human tissues. The Core also assists in experimental design and the development and interpretation of tests and their results. As of July 2012, the Longwood site offers CLIA Certified services.
Proper citation: DF/HCC Specialized Histopathology Services Core (RRID:SCR_000872) Copy
http://wyss.harvard.edu/viewpage/594/
A core facility with access to imaging equipment and analysis software such as wide-field light microscopy, Total Internal Reflection Fluorescence microscopy (TIRF), confocal microscopy, Atomic Force Microscopy (AFM), Transmission Electron Microscopy (TEM), small animal imaging, spectroscopy, and flow cytometry.
Proper citation: Wyss Institute Imaging Core (RRID:SCR_000898) Copy
http://eagle-i.itmat.upenn.edu/i/0000013c-40b7-7a2a-f162-a2b280000000
Core facility that provides the following services: PET/SPECT/CT image analysis.
Proper citation: Penn Small Animal Imaging Facility: PET/SPECT/CT Sub-Core (RRID:SCR_000890) Copy
http://jsu.eagle-i.net/i/0000012b-00bd-5152-3984-bcfb80000000
A research laboratory and facility which supports research on environmental toxicology at Jackson State University.
Proper citation: JSU Environmental Toxicology Core Lab (RRID:SCR_000884) Copy
http://www.cma.mgh.harvard.edu/
A center dedicated to developing and applying morphometric methods to biomedical imaging data such as high-resolution MRI. The lab uses automated and semi-automated software such that MRI brain images are segmented into anatomical regions of interest. Projects in both basic and applied brain research include research on strokes and tumors; medical image processing research includes shape analysis of anatomical brain regions and measurement and analysis of brain volumes.
Proper citation: MGH Center for Morphometric Analysis (RRID:SCR_000885) Copy
http://www.neurodiscovery.harvard.edu/resources/atrc.html
Core facility that provides provides state-of-the-art molecular pathology resources to the Harvard community including laser capture microscopy, DNA/RNA/miRNA quality/expression analysis, Luminex FlexMap 3D multiplex bead cytometry, and real-time PCR. The ATRC is a fee-for-use facility. For NeuroDiscovery members, the first 10 hours of training, consultation and instrument use is free. This initial period is intended to provide a first time user with preliminary data/proof of concept regarding their project, and is generally sufficient when investigators work under the aegis of ATRC staff. Thereafter, the base fee varies depending on activity and the extent of your proposed work. Project-based charge-back agreements for large projects can be negotiated with the ATRC Director, Dr. Charles Vanderburg. Although priority is given to NeuroDiscovery members investigating neurodegenerative diseases and the CNS, the facility is also available to any academic investigators within the Harvard medical community and the greater-Boston research community. Under special arrangements the facility may also be made available to the commercial sector. Please contact ATRC Director, Dr. Charles Vanderburg, for details.
Proper citation: HNDC Advanced Tissue Resource Center (RRID:SCR_012670) Copy
http://bioinformatics.hms.harvard.edu/
Core facility that offers consultations on basic questions in research computing, bioinformatics and computational biology during the initial stages of study design and grant proposals as well as for ongoing, funded studies requiring external expertise. Core has experience in large-scale data management, database design and software development. Staff members can provide assistance in quality assurance and analysis of gene expression arrays, genome-wide SNP arrays, CNV studies and different aspects of second-generation sequencing technologies such as ChIP-seq, RNA-Seq or resequencing efforts. Services also include provision of external information generated from public database, data curation and assistance on choosing the right data format and annotation standard to ensure best practices in data management and submission are being maintained.
Proper citation: Harvard Chan Bioinformatics Core (RRID:SCR_012655) Copy
http://flowcytometry.sysbio.med.harvard.edu/
Core facility that provides the following services: Sorting and analysis services. The facility houses two state-of-the-art BD analyzers with high-throughput capability, a Stratedigm benchtop analyzer, a high-speed BD cell sorter, and both Mac and PC workstations for data analysis. Sorting services are offered through the facility, as well as instrument and software training.
Proper citation: HMS Systems Biology Flow Cytometry Facility (RRID:SCR_012696) Copy
http://dartmouth.eagle-i.net/i/0000012b-00c3-e398-6a59-ec4e80000000
Core facility that provides the following services: Custom design and development of equipment, tools and instruments for scientific research.
Proper citation: Dartmouth Department of Physics: Apparatus Shop Core Laboratory (RRID:SCR_009738) Copy
http://harvard.eagle-i.net/i/0000012e-7276-7824-55da-381e80000000
Core facility that provides the following services: Whole genome amplification service, Genotyping service using Illumina GoldenGate and Infinium technologies, SNP Analysis using OpenArray Genotyping, SNP Analysis using Taqman, Custom Illumina GoldenGate genotyping, Illumina Infinium genotyping.
The mission of the High-Throughput Polymorphism Detection Core is to provide services to investigators conducting molecular analyses of somatic DNA collected as part of a wide range of investigations. This Core provides high-throughput assays of specific gene mutations and polymorphisms (SNPs) in the many situations where previously defined specific nucleotide alterations are of interest.
Proper citation: DF/HCC High-Throughput Polymorphism Detection Core (RRID:SCR_009736) Copy
http://harvard.eagle-i.net/i/0000012d-c90c-c8fc-4882-b08d80000000
Core facility that provides the following services: Hematopoietic progenitor cell (HPC) components processing, Tumor cell vaccine generation, Dendritic cell vaccine generation, Validation consultation.
The (Connell and O''Reilly Families) Cell Manipulation Core Facility (CMCF), at Dana-Farber Cancer Institute (DFCI) was created in 1996 to be the manufacturing facility that produces safe and effective novel cellular component therapy that meets regulatory guidelines for clinical use and also facilitates research to be translated from the bench to the bedside. The goal of this facility is to assist DF/HCC investigators in developing new cell-based therapies for cancer and to support clinical research studies designed to evaluate the toxicity and efficacy of these novel treatments. In November 2004, CMCF moved to a newly constructed 6,700 square feet facility on the third floor and ground floor of the Jimmy Fund Building (JFB) at DFCI. The new facility is dedicated to the production of clinical grade cellular products for patients who participate in clinical trials conducted by DF/HCC investigators. All procedures are performed in environmentally controlled conditions according to current Good Manufacturing Practices (cGMP) for cell and tissue processing. The third floor accommodates all of the production areas while space on the ground floor is devoted to the long-term storage of cellular products, tissues and samples in liquid nitrogen and mechanical freezers. The CMCF is available to both clinical and laboratory investigators at all DF/HCC institutions and will provide services to patients at all DF/HCC affiliated hospitals. The staff of the CMCF are committed to working with DF/HCC investigators at all levels of clinical trial development and execution, including pre-clinical development, trial design, DF/HCC and FDA review, data management, quality control, internal and external audits as well as reports and publications. The Cell Manipulation Core Facility (CMCF) has been accredited by the Foundation for the Accreditation of Cellular Therapy (FACT). The CMCF services as a Regulatory Core for Center for Human Cell Therapy and is also a member of the Joint Program in Transfusion Medicine.
Proper citation: DF/HCC Cell Manipulation Core Facility (RRID:SCR_009734) Copy
http://cdrewu.eagle-i.net/i/00000135-20a3-3d3f-f836-7d1b80000000
The AXIS Biomedical Informatics function is dedicated to providing investigators at Charles Drew University (CDU) with state-of-the-art informatics solutions for their research projects. AXIS Biomedical Informatics comprises a multi-disciplinary team of researchers with backgrounds and interest in clinical medicine, biomedical informatics, medical geography and geographical information systems, computer science, sociotechnical theories and qualitative methods.
Proper citation: CDU AXIS Biomedical Informatics function (RRID:SCR_009699) Copy
http://harvard.eagle-i.net/i/0000012c-f066-ba26-2162-17a280000000
Core facility that provides the following services: Metabolite identification service, PK data analysis and interpretation service.
The Cancer Pharmacology Core provides DF/HCC investigators with the necessary expertise and resources to design and undertake pharmacokinetic studies in the context of phase I and phase II clinical trials, and preclinical investigations. The core has the ability to implement and validate previously developed analytical methods to quantify drugs and their metabolites in biological fluids as well as the capability to modify or develop entirely new assays when warranted. The core also offers comprehensive analysis of pharmacokinetic data as an additional service, including the estimation of pharmacokinetic parameters and identifying their relationship to pathophysiological variables and pharmacodynamic effects.
Proper citation: DF/HCC Cancer Pharmacology Core (RRID:SCR_009732) Copy
http://ccny-cuny.eagle-i.net/i/00000137-568a-3b40-bb24-040880000000
LSR II A State-of-the-Art RCMI Flow Cytometry Core is located in MR613 with full time technical support, provided by the Flow Technician Mr. Jeffrey Walker. Mr. Walker is BD trained and certified in both analysis and sorting and has extensive experience in sorting both lymphocytes and larger epithelial cells, as well as with specialized applications including cell cycle analysis and calcium flux. Mr. Walker provides training for regular users wishing to perform independent analysis, and is responsible for all sorting.
Proper citation: CCNY Fluorescence Activated Cell Sorting (RRID:SCR_009696) Copy
http://cau.eagle-i.net/i/00000135-abf1-2607-ecf8-187780000000
CCRTD houses several major instruments to support structural studies of biological molecules, cells, modern cell, and molecular visualization applications. We have an Inverted Digitized Microscope (Zeiss) of general use, plus an advanced Fluorescence-enabled Inverted Digitized Microscope with Z-stacking and Live Cell Imaging modules (Zeiss). For advanced applications including In Situ Hybridization (ISH) and Immunohistochemistry (IHC), in addition to Zeiss microscope above we offer Confocal Fluorescent Microscope (Nikon). The latter is currently undergoing a major upgrade of computer system, software, and optics including addition of lasers.
Proper citation: CAU CCRTD-Structural Biology (RRID:SCR_009694) Copy
http://cau.eagle-i.net/i/00000135-abe7-77c7-ecf8-187780000000
CCRTD Core Facilities house major equipment for DNA and RNA-based applications. We offer polymerase chain reaction ( PCR ) instruments including Real-Time PCR machine (I-Cycle, Bio-Rad), Liquid Scintillation Counter (Beckman Coulter), Lyophilizer and Freeze-Dryer for biological samples, Cell Porator, high-speed and ultra-high-speed Centrifuges, ultra-sensitive Balances, and other supporting equipment. DNA and RNA quantification can be carried out on Spectrophotometers, both single-cuvette (DU650, Beckman Coulter) and 96-well plate based. DNA and RNA can be visualized, digitized, and quantified using Gel Documentation system (Bio-Rad) or Multi-Mode Imager Typhoon 9410, in fluorescent, luminescent, UV, or visible wavelengths; time-resolved fluorescence option is available on BioTek Plate Imager. For X-Ray imaging, we maintain an Automated X-Ray processor and Dark Room; radioisotope imaging is also supported on Typhoon 9410.
Proper citation: CAU CCRTD-Molecular Biology (RRID:SCR_009692) Copy
http://harvard.eagle-i.net/i/0000013a-8f55-ae5a-0802-e06e80000000
Core facility that provides the following services: Mouse Long Bone Scans, Mouse Vertebrae Scans. The Harvard School of Dental Medicine under the direction of The Office of Research operates a core facility composed of two micro CT machines.
Proper citation: HSDM Micro CT Core (RRID:SCR_009693) Copy
http://eagle-i.itmat.upenn.edu/i/00000138-b447-d309-9cd7-d7e280000000
Core facility that provides the following services: DNA sequencing service, Oligonucleotide synthesis portal to IDT service, Oligonucleotide purification service, DNA fragment analysis service. The Nucleic Acid/Protein Research Core Facility, located on the 9th floor of the Abramson Building, provides a centralized source for specialized services, technical expertise and reagents to support investigators'' molecular biology research needs. These services include DNA sequencing analysis, fluorescent fragment analysis (microsatellite genotyping), oligonucleotide synthesis, microarray services, denaturing high-performance liquid chromatography, Affymetrix GeneChip expression analysis, SNP analysis and RNA analysis.
Proper citation: CHOP Nucleic Acid/Protein Core (RRID:SCR_009728) Copy
http://eagle-i.itmat.upenn.edu/i/0000013b-9b4b-434b-83a0-df0880000000
Core facility that provides the following services: Tissue microarray construction service, Unstained slides preparation service, H&E staining (on unstained slide) service, Special stain (from slide) service, TUNEL labeling service, IHC stain from slide service, In situ hybridization RNAscope service, New antibody workup service, Decalcification service, Laser capture service, Histopathology-related techniques training, Histopathology technical consultation service, Basic imaging workstation access, Laser capture microdissection microscope access. The Pathology Core Laboratory at the Children''s Hospital of Philadelphia Research Institute provides basic histopathology, research immunohistochemistry, tissue microarray, and laser capture microdissection services to researchers at Children''s Hospital and within the surrounding academic community. We are located on the 7th Floor of the Leonard and Madlyn Abramson Pediatric Research Center in room 706. The Pathology Core Laboratory unites three core components in a single core facility: histopathology, tissue microarray and laser capture microdissection. The core offers a full range of histopathology services including tissue processing, embedding, and cutting, for both paraffin and frozen tissue. We also perform most standard stains as well as immunohistochemistry, antibody workup, fluorescence, in situ hybridization and TUNEL. Tissue microarrays can be constructed using a Beacher Arrayer. Sophisticated imaging instrumentation is available for virtual microscopy (ScanScope from Aperio) and image analysis (Image ProPlus, Volocity). Specialized software is available to image and analyze tissue microarrays, and to manage and store array data.
Proper citation: CHOP Pathology Core Laboratories (RRID:SCR_009729) Copy
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