Searching the RRID Resource Information Network
Are you sure you want to leave this community? Leaving the community will revoke any permissions you have been granted in this community.
SciCrunch Registry is a curated repository of scientific resources, with a focus on biomedical resources, including tools, databases, and core facilities - visit SciCrunch to register your resource.
http://www.med.unc.edu/metabolomics
Laboratory equipped for metabolite profiling from a wide range of biological samples. Equipment includes high-throughput robotic systems for the analysis of large sample sets. Data analysis software, both commercial and home built, is also available for discovery of biomarkers, metabolic signatures of disease, toxicity or other biological outcomes.
Proper citation: UNC Metabolomics Laboratory (RRID:SCR_001053) Copy
Chemical supplier that both curates and sells laboratory supplies and reagents.
Proper citation: P212121 (RRID:SCR_001032) Copy
http://www.scienceexchange.com/facilities/yale-university
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 15,2024. Page listing Core facilities at Yale.
Proper citation: Yale University Labs and Facilities (RRID:SCR_012621) Copy
http://www.scienceexchange.com/facilities/virginia-commonwealth-university
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 15,2024. Portal, Core facility
Proper citation: Virginia Commonwealth University Labs and Facilities (RRID:SCR_012296) Copy
http://www.scienceexchange.com/facilities/arista-solutions-llc
Arista Solutions LLC can accelerate your cleantech R&D. We bring mechanical design to the world of material science.
Proper citation: Arista Solutions LLC (RRID:SCR_012556) Copy
http://www.scienceexchange.com/facilities/axeq-technologies-inc
Axeq Technologies, a sister company to Macrogen, based in Rockville, Maryland focuses on providing high quality data at an affordable cost to researchers around the world. We pride ourselves with our publication grade data, fast turnaround time and very competitive prices. Axeq specializes in Exome, Transcriptome and Whole Genome Sequencing and can provide targeted DNA and RNA arrays. We help researchers from library preparation all the way to data analysis. Axeq your data today!
Proper citation: Axeq Technologies (RRID:SCR_012369) Copy
http://www.scienceexchange.com/facilities/university-of-arizona
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 19,2024. Portal, Core facility
Proper citation: University of Arizona Labs and Facilities (RRID:SCR_012646) Copy
http://www.scienceexchange.com/facilities/nanotechnology-core-facility
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 16,2024. Center for Micro/Nano Systems and Nanotechnology is led by Professor Shubhra Gangopadhyay in electrical and computer engineering. This center is a multidisciplinary research facility that houses Nano Mems Semiconductor Lab (NMS) with state of art equipment to support research in the field of micro/nano-fabrication and nanotechnology. The mission of the Nano Mems Semiconductor Lab (NMS) is to serve and facilitate advanced research in processing and developing nanotechnology for academic and industrial users. NMS promotes the commercialization of nanomaterials research to meet the market needs in the commercial and defense sectors. Entrepreneurs, academic researchers, small and large companies can use our facility to turn their innovative ideas into novel product. NMS lab has 10,000 sq. feet facility housed at the University of Missouri. Top down microfabrication is performed in a class 100 clean room facility. The lab features additional 1100 sq.ft of class 10,000 cleanroom space equipped with various semiconductor processing equipment including metal and dielectric deposition systems, glove box, rapid thermal annealing system, fumehoods for chemical processing and thermal oxidation systems. Main activities of this center includes thin film process development for different applications, development of nano porous silicon films, functionalization of nanopours silicon films for biomedical application, development of SiCON films with high breakdown strength, diamond like carbon films based high through put cell ,microchip-based shock wave generator etc. This center is also working on synthesizing nanostructured materials such as quantum dots, nanoparticles, nanorods, and nanowires for life sciences, energy and defense applications.
Proper citation: University of Missouri Nanotechnology Core Facility (RRID:SCR_011024) Copy
http://www.scienceexchange.com/facilities/australian-microscopy-microanalysis-research-facility
The Australian Microscopy & Microanalysis Research Facility (AMMRF) is Australia''s leading facility for the characterisation of matter on a fine scale. We specialise in instrumentation, methodologies and applications for characterising samples in the physical, biological and environmental sciences using ion and electron beams, scanned probes, X-rays as well as light and laser optics. The six AMMRF nodes are located at the host universities in Adelaide, Brisbane, Canberra, Perth and Sydney. More information is available at www.ammrf.org.au and at http://www.ammrf.org.au/techniquefinder.
Proper citation: Australian Microscopy and Microanalysis Research Facility (RRID:SCR_011035) Copy
https://mann.usc.edu/core-facilities/lentiviral-lab/
USC School of Pharmacy Lentiviral Laboratory, located on the second floor of the Pharmaceutical Sciences Center, provides services for production of small-scale lentiviral stocks containing the gene of interest, lentiviral titrations, concentrations and transductions of cells of interest. We also construct individual lentiviral vectors including sub-cloning of the gene of interest into a pLVX-puro lentiviral vector.
Proper citation: University of Southern California School of Pharmacy Lentiviral Laboratory Core Facility (RRID:SCR_011036) Copy
The Angiogenesis, Endothelial & Pro-Angiogenic Cell Core (AEPCC) is a state-of-the-art facility that has been established through the Indiana University Melvin and Bren Simon Cancer Center, a National Cancer Institute-designated cancer center, to conduct validated and highly reproducible in vitro and in vivo angiogenesis, endothelial, hematopoietic and multi-parametric flow cytometry assays and their role in normal and patient-related hematologic and cardiovascular disorders. In addition to possessing the in vitro and in vivo assays that define the endothelial progenitor outgrowth cells that possess in vivo vessel forming ability, the AEPCC recently stringently defined a population of pro-angiogenic and anti-angiogenic circulating hematopoietic stem and progenitor cells (CHSPCs) that has been shown to regulate angiogenesis. Discovery of these novel CHSPC subsets demonstrates the uniqueness and strength of the approach by the AEPCC that requires both phenotypic and functional data to validate specific circulating cells that participate in new blood vessel formation. The specific assays offered by the AEPCC function as quantitative analytical tools, potential biomarkers of several hematopoietic diseases, and as experimental platforms for understanding the basic mechanisms of angiogenesis and the interplay between the endothelial and hematopoietic systems. For example, not only are CHSPCs critical for normal and abnormal angiogenesis, but we and others have reported that certain endothelial cells are critical for CHSPC expansion ex vivo and that endothelial cells promote CHSPC engraftment post-ablation. The AEPCC serves to directly perform all of the assays required to analyze research samples, and as a consultation, education, and new assay development site for scientists within and outside the IU School of Medicine and Indiana University. Furthermore, the AEPCC is one of only five nationally recognized Core Centers of Excellence in Molecular Hematology by the National Institutes of Health and is a certified core of the Indiana Clinical and Translational Sciences Institute (CTSI).
Proper citation: IUSM Angiogenesis Endothelial and Pro-Angiogenic Cell Core (RRID:SCR_011001) Copy
http://www.scienceexchange.com/facilities/genomics-core-facility-lsu
The Genomics Core Facility seeks to achieve high quality research data production through education of core facility users, optimal use of qPCR and RNA/DNA quality and quantity instrumentation, and quality Sanger sequencing, next-generation sequencing, robotics, and microarray services. Services are provided to internal and external researchers.
Proper citation: LSU Genomics Core Facility (RRID:SCR_011004) Copy
http://www.scienceexchange.com/facilities/magnetic-resonance-research-facility-mrrf-uiowa
The University of Iowa MR Research Facility was established in August of 2004 with the acquisition of a Siemens Trio 3T scanner, shared between research and clinical usage. While the Center is within the Department of Radiology, it is run as a Core University facility. The facility is managed on a daily basis by Vincent Magnotta, PhD, Alan Stolpen, MD, PhD, and Dan Thedens, PhD. Oversight is provided by a Research Advisory committee that reviews new project proposals and equipment acquisitions. Since its inception, the equipment managed by the Research Center has expanded. In 2006, a research dedicated Siemens Avanto 1.5T scanner was loaned to the University by Siemens Medical Solutions to support research studies. Then, in 2007 an NIH/NCRR High End Instrumentation grant supported the acquisition of a research dedicated Siemens TIM Trio 3T scanner. Standard operating hours for the research-dedicated 3T TIM Trio scanner are from 8:00 a.m. to 6:00 p.m., Monday through Friday. During this time, a technologist is provided to run the scanner. The shared research 3T TIM Trio scanner is available all day Tuesdays (8:00 a.m. - 4:30 p.m.), and Thursday afternoons (12:00 p.m. - 4:30 p.m.) for research studies. The shared Avanto 1.5T scanner is available Mondays, Wednesdays and Fridays from 2:00 p.m. to 4:00 p.m. The scanners are also available after-hours if technologist coverage is available, or if the user is certified to conduct MR studies on their own. The current rate for scanner usage is $600 per hour and can be scheduled in half hour increments.
Proper citation: University of Iowa Magnetic Resonance Research Facility (RRID:SCR_011014) Copy
http://www.scienceexchange.com/facilities/next-generation-sequencing-ngs-core
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 15,2024. Laboratory: The Institute for Genomics and Systems Biology''''s Next Generation Sequencing Core (IGSB-NGS) is a state-of-the-art facility for ultra-high throughput sequencing. The core was established in 2007 at Argonne National Laboratory and is housed in Argonne''''s Computing, Environment and Life Sciences (CELS) directorate, providing world class computation power, software, and expertise critical to the acquisition, analysis, and interpretation of the unprecedented volume of genetic information being generated on next generation DNA sequencing platforms. The core provides resources and services to Argonne National Laboratory users, University of Chicago users, and to the broader scientific community. NGS is involved in a broad range of scientific research from the sequencing of metagenomic samples to both 16S and 18S rRNA amplicon sequencing for microbial community analysis using next generation sequencing. The NGS laboratory space at Argonne is approximately 1,200 square feet and is supplemented by 140 square feet of office space for the technical director, Ms. Sarah Owens, as well as two additional 140 square foot spaces for technicians. Equipment: The NGS maintains the following workflows: Illumina HiSeq2000 and MiSeq next generation DNA sequencing. The Illumina HiSeq2000 generates over 6 billion reads at 150 bp in length per read resulting in over 600 Gb worth of data across sixteen lanes available per run. The Illumina MiSeq generates over 24 million reads at 150 bp in length per read resulting in over 4.5 Gb worth of data available per run (over a single lane). Applications on both the Illumina HiSeq2000 and MiSeq include: shotgun metagenome sequencing; rRNA-based amplicon library sequencing; and genome sequencing and resequencing. All major equipment is housed within the main laboratory space including three 96-well PCR machines (Applied Biosystems), water baths, analytical balances, refrigerator/freezers (including a large-capacity -80 degree C freezer), incubators, and high and low speed centrifuges (table-top and floor models). Basic equipment and supplies for all advanced molecular techniques (deionized water (Millipore Milli-Q Advantage A10 system), multiple electrophoresis units and digital photographic documentation system) are housed here including equipment for high precision quantitation of nucleic acids (Agilent Bioanalyzer, NanoDrop, and Invitrogen Qubit). The facility also has a Covaris for sample shearing. Any additional equipment needed is located in or near by the NGS laboratory space including a real-time PCR machine (Roche LightCycler 480 with capabilities for both 96-well and 384-well plates) and a liquid handler, the Eppendorf epMotion 5075 robot. Some equipment (autoclaves, ice machine) is located in a common equipment room. Various instruments and methods have been implemented in the NGS''''s standard procedures to maximize quality. These include the use of the Roche Lightcycler 480 II, Agilent Bioanalyzer 2100, Invitrogen Qubit Fluorometer, and barcoding of libraries destined for sequencing. (The latter allows for a test sequencing run of each library to be performed to optimize sequencing lane loading density prior to each library''''s final sequencing run). Personnel overview. NGS operations are managed by Technical Director Sarah Owens. Ms. Owens has a Masters in Molecular Biology and Genetics, and 2 years experience working in high throughput facilities, with over 6 years of molecular biology experience. Ms. Owens was instrumental in trouble-shooting the application of rRNA-based amplicon sequencing for the Illumina HiSeq2000 and MiSeq, developing reproducible protocols in collaboration with Illumina. Under the guidance of the Technical Director, the NGS team helps users to determine the most efficient and cost effective approach to meet their research needs.
Proper citation: UChicago IGSB Next Generation Sequencing Core (RRID:SCR_011063) Copy
http://www.scienceexchange.com/facilities/photonics-research-centre
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on May 2,2024. We undertake fundamental and applied research in the general area of lasers and photonics, with particular focus on the following seven frontiers of optical science: astrophotonics; biophotonics; microphotonic optical systems; nano-optics and nanophotonics; photonic sources; optical sensing and imaging; ultrafast laser applications.
Proper citation: Macquarie University Photonics Research Centre (RRID:SCR_011068) Copy
http://www.med.upenn.edu/genetics/dnaseq/index.shtml
Core facility that provides the following services: Large sequencing project support, Sanger sequencing service, High throughput DNA sequencing, Ion Torrent Personal Genome Machine sequencing, Template preparation and purification, Roche 454 sequencing, Sequence analysis and database search support, Construction of targeting vector for gene targeting, Genotyping and Fragment Analysis service, Molecular biology services, Mouse genotyping, and Ion Personal Genome Machine sequencing data analysis. The DNA Sequencing Facility provides long read, automated Sanger sequencing; microsatellite-based genotyping and fragment analysis; plasmid and BAC DNA preparation and purification; and related molecular biological services including PCR, cloning, sub-cloning, site-directed mutagenesis, and preparation of targeting vectors for gene targeting in mice. Core also provides services and support for analysis and interpretation of sequence data as well as the design of approaches to complex sequencing projects. For the last four years the facility has been providing Roche 454 sequencing service that includes library preparation, emulsion PCR and pyrosequencing for both genomic DNA and amplicons.
Proper citation: University of Pennsylvania Genomics Analysis Core (RRID:SCR_011061) Copy
The ARC Centre of Excellence for Engineered Quantum Systems seeks to engineer complex, multi-component, quantum systems for new science and new applications. Cross-disciplinary scientific advances will link quantum physics with engineering, chemistry, and biology; and sophisticated technologies will be developed for 21st Century Australian industries. The EQuS collaboration possesses experimental capabilities in all major successful quantum technologies including spins in semiconductors, superconducting circuits, opto- and nano-mechanics, trapped atoms, and quantum photonics.
Proper citation: MQ ARC Centre of Excellence for Engineered Quantum Systems (RRID:SCR_011073) Copy
http://www.scienceexchange.com/facilities/fauna-park
Situated on the corner of Culloden Rd and Tallavera Rd, Marsfield and originally farmed as market gardens, the Macquarie University Fauna Park stretches over 11Ha; 3.5Ha of which is protected Sydney Turpentine Ironbark Forest. The area is committed to non-intrusive research, e.g. learning to avoid predation, and other natural animal behaviours. Vertebrates (birds, fish, reptiles) or invertebrates (bees, flies, spiders) are observed in natural settings with minimal disruption to their normal environment. This allows the researchers to verify findings they have documented in the field. Other areas of investigation are water ecology and the competitive abilities of native trees.
Proper citation: Macquarie University Fauna Park (RRID:SCR_011075) Copy
http://www.scienceexchange.com/facilities/wireless-communications-and-networking-laboratory-wcnl
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 15,2024. The Wireless Communications and Networking Laboratory (WCNL) at Macquarie University conducts research into emerging wireless communications and networking technologies.
Proper citation: Macquarie University Wireless Communications and Networking Laboratory (RRID:SCR_011076) Copy
http://www.scienceexchange.com/facilities/guided-wave-optics-and-photonics-research-group-gwopr
The Guided Wave Optics and Photonics Research group (GWOPR) undertakes teaching, research, and development in the area of guided-wave optics, including integrated optics and optical fibres, specialising in microstructured and nanostructured materials. The group''s research capabilities are broad, but mainly target applications in telecommunications and sensing.
Proper citation: Macquarie University Guided Wave Optics and Photonics Research group (RRID:SCR_011077) Copy
Can't find your Tool?
We recommend that you click next to the search bar to check some helpful tips on searches and refine your search firstly. Alternatively, please register your tool with the SciCrunch Registry by adding a little information to a web form, logging in will enable users to create a provisional RRID, but it not required to submit.
Welcome to the dkNET Resources search. From here you can search through a compilation of resources used by dkNET and see how data is organized within our community.
You are currently on the Community Resources tab looking through categories and sources that dkNET has compiled. You can navigate through those categories from here or change to a different tab to execute your search through. Each tab gives a different perspective on data.
If you have an account on dkNET then you can log in from here to get additional features in dkNET such as Collections, Saved Searches, and managing Resources.
Here is the search term that is being executed, you can type in anything you want to search for. Some tips to help searching:
You can save any searches you perform for quick access to later from here.
We recognized your search term and included synonyms and inferred terms along side your term to help get the data you are looking for.
If you are logged into dkNET you can add data records to your collections to create custom spreadsheets across multiple sources of data.
Here are the sources that were queried against in your search that you can investigate further.
Here are the categories present within dkNET that you can filter your data on
Here are the subcategories present within this category that you can filter your data on
If you have any further questions please check out our FAQs Page to ask questions and see our tutorials. Click this button to view this tutorial again.
The NIDDK Information Network (dkNET) serves the needs of basic and clinical investigators by providing seamless access to large pools of data and research resources relevant to the mission of The National Institute of Diabetes Digestive and Kidney Diseases (NIDDK). dkNET is hosted at University of California San Diego, and is supported by NIH NIDDK grant 2U24DK097771-09.
Email: info_at_ dknet.org
