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https://ptc.bocsci.com/services/small-molecule-target-protein-ligand.html
Provides small molecule target protein ligand service to customers to meet new drug discovery goals.
Proper citation: BOC Sciences Small molecule target protein ligand Service Resource (RRID:SCR_022126) Copy
http://www.sbpdiscovery.org/technology/sr/Pages/LaJolla_NMR.aspx
Facility that acts as a centralized shared resource for NMR studies on proteins, peptides, small molecules, and carbohydrates in solution or in solid state. It provides instrumentation and expertise for NMR data collection. It also provides consultation with investigators on the feasibility of NMR for structural studies of protein candidates, as well as the optimal method to obtain solution structures and binding information by multi-dimensional NMR techniques. It can also train users in basic spectrometer operations, trouble-shoot for instrumental and operational problems, and set up NMR experiments for users as requested.
Proper citation: Sanford Burnham Prebys Medical Discovery Institute NMR Facility (RRID:SCR_014861) Copy
http://www.sbpdiscovery.org/technology/sr/Pages/LaJolla_ProteinAnalysis.aspx
Facility that provides a variety of analytical services focused on biophysical characterization of structural and functional properties of proteins in solution, under native, non-denaturing conditions. Examples of services include quality control of protein samples (folding, stability, aggregation); measuring molecular weight of proteins, protein complexes, oligomers and assemblies; charcaterizing protein conformation and shape in solution; determining oligomeric state of protein (including stoichiometry and Kd for self-association) and measuring protein binding to proteins, peptides, small molecules, compounds, metals, nucleotides and other ligands (including determination of equilibrium (Kd) and kinetic rate (kon, koff) constants, stoichiometry, binding enthalpy and entropy).
Proper citation: Sanford Burnham Prebys Medical Discovery Institute Protein Analysis Core (RRID:SCR_014862) Copy
http://www.vilber.de/en/products/gel-documentation/e-box/
Stand alone gel imager for gel documentation. Provides high-resolution images of DNA, RNA or protein gels. Images can either be printed out directly or saved in internal storage. Transfer of data to PC is possible.
Proper citation: Vilber E-BOX CX5 TS gel imager (RRID:SCR_026106) Copy
https://allsheng.com.cn/product_cont_61.html
Nano-100 microspectrophotometer to measure concentration of nucleic acid, protein and cell solution. 0.5 to 2μl of sample volume is required for each measurement. No cuvette is required. At the end of measurement, sample could be either wiped off directly or recovered with pipettor.
Proper citation: ALLSHENG Nano100 Micro-specrophotometer (RRID:SCR_026096) Copy
https://www.bdbiosciences.com/zh-cn/products/instruments/single-cell-multiomics-systems/rhapsody
System allows high-throughput capture of multiomic information from single cells using cartridge workflow and multitier barcoding system. Used for high-throughput, multiomic profiling of single cells. Allows to analyze gene expression at both mRNA and protein levels, as well as other cellular characteristics, using microwell-based system with multitiered barcoding approach.This enables the generation of various next-generation sequencing (NGS) libraries for deeper analysis.
Proper citation: BD Rhapsody Single-Cell Analysis System (RRID:SCR_027096) Copy
Biomedical technology research center that develops methods, both experimental and theoretical, of modern electron spin resonance (ESR) for biomedical applications. Center technologies are applicable to the determination of the structure and complex dynamics of proteins. Principal areas of expertise: * Pulsed Fourier Transform and Two Dimensional ESR * High Frequency-High Field (HFHF) ESR * High Resolution ESR Microscopy * Theory and Computational Methods for Modern ESR Activities include: * making resources available to the biomedical community, * publishing results, * running workshops on the new methodologies, * addressing the need to bring these new technologies to other laboratories.
Proper citation: National Biomedical Center for Advanced ESR Technology (RRID:SCR_001444) Copy
Biomedical technology research center that conducts high-sensitivity structural determinations and analyses of biological compounds via mass spectrometry. The emphasis is on glycoconjugates, oligosaccharides and proteins.
Proper citation: BUSM Mass Spectrometry Resource (RRID:SCR_000823) Copy
http://depts.washington.edu/yeastrc/
Biomedical technology research center that (1) exploits the budding yeast Saccharomyces cerevisiae to develop novel technologies for investigating and characterizing protein function and protein structure (2) facilitates research and extension of new technologies through collaboration, and (3) actively disseminates data and technology to the research community. Through collaboration, the YRC freely provides resources and expertise in six core technology areas: Protein Tandem Mass Spectrometry, Protein Sequence-Function Relationships, Quantitative Phenotyping, Protein Structure Prediction and Design, Fluorescence Microscopy, Computational Biology.
Proper citation: Yeast Resource Center (RRID:SCR_007942) Copy
Biomedical technology research center that develops mass spectrometry-based tools for the study of proteins, lipids and metaboilites. These include biomarker identification, stable isotope mass spectrometry and the analysis of intact proteins. Our goals are: * to conduct basic research in the science of mass spectrometry * to establish collaborative research projects with scientists at WU and at other institutions * to provide a service in mass spectrometry * to educate and train students in mass spectrometry * to disseminate results of our research and descriptions of the subject of mass spectrometry
Proper citation: NIH / NCRR Mass Spectrometry Resource Washington University in St. Louis (RRID:SCR_009009) Copy
http://www.elsevier.com/online-tools/pathway-studio/biological-database
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 5, 2023. MedScan is a fast and flexible biomedical information extraction technology. It uses dictionaries to identify individual biomedical terms (proteins, cellular processes, small molecules, diseases, etc) referred to in literature articles, and applies advanced natural language processing techniques to detect the relationships within the article and extract these terms and the relationships; the overall process of detection, identification, extraction and assembling, is termed Information Harvesting. Information extracted by MedScan represents the multiple aspects of protein function, including protein modification, cellular localization, protein-protein interactions, gene expression regulation, molecular transport and synthesis, as well as association with diseases, and regulation of various cellular processes. This scope can be broadened by modifying information extraction rules and the dictionaries. Dictionaries can be assembled on any topic or area that is represented in the literature you wish to harvest. High-throughput data generation methodologies like microarray gene expression require new approaches for gathering information for data analysis. For the best results, computational approaches used for high-throughput data analysis require that biological information from the literature be a coherent and integrated part of the analysis software itself. Pathway Studio meets this challenge through its MedScan Technology and underlying ResNet database. All editions of Pathway Studio contain MedScan Technology to harvest information from the literature and to save this information in the Pathway Studio ResNet database ready for data analysis. MedScan is more than a web search engine. Indeed, the output of a Google search can be channeled into MedScan for example. Web searches, like Google, are excellent at finding items as a result of a query. A quick look at the output list usually locates the item for which you are looking. This approach however, is not well suited for information and knowledge gathering. Also, once information is gathered, where do you put it for later computational use? MedScan meets this challenge for the area of biomedical literature and biomedical online information. PubMed meets the needs for a central repository of biomedical literature. Researchers can go to PubMed and search for any topic and articles of interest, much like a web type of search. However, just like a web type of search, PubMed also provides a list of all the hits with a link to the articles. If a single article, or even just a few, are sought, this search approach is useful. Alternatively, MedScan will list all the articles of interest but additionally scans the text for relationships, highlights these relationships in the articles and then lists these relationships and the biological molecules and processes involved in the relationships in separate tables. The tables of relationships can be viewed graphically in Pathway Studio and can be saved into the ResNet database for use in experimental data analysis.
Proper citation: MedScan (RRID:SCR_003314) Copy
Publicly available database of the genes, proteins, experimentally-verified interactions and signaling pathways involved in the innate immune response of humans, mice and bovines to microbial infection. The database captures coverage of the innate immunity interactome by integrating known interactions and pathways from major public databases together with manually-curated data into a centralized resource. The database can be mined as a knowledgebase or used with the integrated bioinformatics and visualization tools for the systems level analysis of the innate immune response. Although InnateDB curation focuses on innate immunity-relevant interactions and pathways, it also incorporates detailed annotation on the entire human, mouse and bovine interactomes by integrating data (178,000+ interactions & 3,900+ pathways) from several of the major public interaction and pathway databases. InnateDB also has integrated human, mouse and bovine orthology predictions generated using Ortholgue software. Ortholgue uses a phylogenetic distance-based method to identify possible paralogs in high-throughput orthology predictions. Integrated human and mouse conserved gene order and synteny information has also been determined to provide further support for orthology predictions. InnateDB Capabilities: * View statistics for manually-curated innate immunity relevant molecular interactions. New manually curated interactions are submitted weekly. * Search for genes and proteins of interest. * Search for experimentally-verified molecular interactions by gene/protein name, interaction type, cell type, etc. * Search genes/interactions belonging to 3,900 pathways. * Visualize interactions using an intuitive subcellular localization-based layout in Cerebral. * Upload your own list of genes along with associated gene expression data (from up to 10 experimental conditions) to interactively analyze this data in a molecular interaction network context. Once you have uploaded your data, you will be able to interactively visualize interaction networks with expression data overlaid; carry out Pathway, Gene Ontology and Transcription Factor Binding Site over-representation analyses; construct orthologous interaction networks in other species; and much more. * Access curated interaction data via a dedicated PSICQUIC webservice.
Proper citation: InnateDB (RRID:SCR_006714) Copy
Data repository for integrative/hybrid structural models of macromolecules and their assemblies. This includes atomistic models as well as multi-scale models consisting of different coarse-grained representations.
Proper citation: PDB-Dev (RRID:SCR_016185) Copy
http://tools.thermofisher.com/content/sfs/manuals/nd-1000-v3.8-users-manual-8%205x11.pdf
Spectrophotometer for measurement and analysis of 1 ul samples with high accuracy and reproducibility. Full spectrum from 220nm to 750nm spectrophotometer utilizes patented sample retention technology that employs surface tension alone to hold sample in place. No need for cuvettes. Has capability to measure highly concentrated samples without dilution.
Proper citation: Thermo Scientific Nanodrop 1000 Spectrophotometer (RRID:SCR_016517) Copy
http://bioweb.ensam.inra.fr/esther
Database and tools for analysis of protein and nucleic acid sequences belonging to superfamily of alpha/beta hydrolases homologous to cholinesterases. Covers multiple species, including human, mouse caenorhabditis and drosophila., THIS RESOURCE IS NO LONGER IN SERVICE. Documented on September 16,2025.
Proper citation: ESTHER (RRID:SCR_002621) Copy
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 14,2026. Integrated database of genomic, expression and protein data for Drosophila, Anopheles, C. elegans and other organisms. You can run flexible queries, export results and analyze lists of data. FlyMine presents data in categories, with each providing information on a particular type of data (for example Gene Expression or Protein Interactions). Template queries, as well as the QueryBuilder itself, allow you to perform searches that span data from more than one category. Advanced users can use a flexible query interface to construct their own data mining queries across the multiple integrated data sources, to modify existing template queries or to create your own template queries. Access our FlyMine data via our Application Programming Interface (API). We provide client libraries in the following languages: Perl, Python, Ruby and & Java API
Proper citation: FlyMine (RRID:SCR_002694) Copy
https://azurebiosystems.com/products/azure-imaging-systems/azure-600/
Benchtop instrument designed for life science research, specifically for imaging, detecting, and quantifying protein and nucleic acids on gels and blots. It enables multi-channel analysis, including laser infrared (IR) fluorescence, RGB visible fluorescence, and chemiluminescence, allowing for multiplexed Western blots.
Proper citation: Azure Biosystems c600 Imaging System (RRID:SCR_027952) Copy
http://www.linked-neuron-data.org/
Neuroscience data and knowledge from multiple scales and multiple data sources that has been extracted, linked, and organized to support comprehensive understanding of the brain. The core is the CAS Brain Knowledge base, a very large scale brain knowledge base based on automatic knowledge extraction and integration from various data and knowledge sources. The LND platform provides services for neuron data and knowledge extraction, representation, integration, visualization, semantic search and reasoning over the linked neuron data. Currently, LND extracts and integrates semantic data and knowledge from the following resources: PubMed, INCF-CUMBO, Allen Reference Atlas, NIF, NeuroLex, MeSH, DBPedia/Wikipedia, etc.
Proper citation: Linked Neuron Data (RRID:SCR_003658) Copy
https://prokoplab.com/vistedd/
Database of SARS-CoV-2 and other viruses. Integrates structural and dynamic insights with viral evolution for proteins coded by virus. Each virus within database has workflow performed on each protein. Workflow consists of protein modeling, molecular dynamic simulations, evolutionary analysis, and mapping of protein-protein interactions. On page for each protein is link to individual protein data folder system, video of protein rotating with conservation, details of protein function, widget to purchase 3D print of protein at cost of production, amino acid movement from molecular dynamic simulations, and table of data for each amino acid of protein.
Proper citation: Viral Integrated Structural Evolution Dynamic Database (RRID:SCR_018793) Copy
Software tool as an annotated database of protein phosphorylation sites in eukaryotes. Contains experimentally identified and conserved p-sites which were collected from phosphoproteomic studies.
Proper citation: EPSD Eukaryotic Phosphorylation Site Database (RRID:SCR_016514) Copy
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