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Web tool for protein-protein docking. Server provides removal of unstructured protein regions, application of attraction or repulsion, accounting for pairwise distance restraints, construction of homo-multimers, consideration of small-angle X-ray scattering data, and location of heparin-binding sites. Six different energy functions can be used, depending on protein type.This protocol describes use of various options, construction of auxiliary restraints files, selection of energy parameters, and analysis of results.
Proper citation: ClusPro (RRID:SCR_018248) Copy
http://brainarchitecture.org/allen-atlas-brain-toolbox
Software Matlab toolbox for quantitative analysis of digitized brain wide gene expression data from Allen Atlas of adult mouse brain.
Proper citation: Brain Gene Expression Analysis toolbox (RRID:SCR_017438) Copy
https://covic.lji.org/databases/
Serves as clearinghouse for monoclonal antibodies against SARS-CoV-2. Database will catalog contributed antibodies in searchable resource and provide interactive analysis tools for comparisons among them. Most potent antibodies will guide development of vaccines to stop current outbreak and protect against future pandemics.
Proper citation: CoVIC-DB Database (RRID:SCR_018339) Copy
http://www.rad.upenn.edu/sbia/
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on June 2, 2023. A section of the Penn department of radiology, it is devoted to the development of computer-based image analysis methods and their application to clinical research studies. Image analysis methodologies include image registration, segmentation, population-based statistical analysis, biophysical modeling of anatomical deformations, and high-dimensional pattern classification. Clinical research studies spans a variety of clinical areas and organs, and they include brain diseases such as Alzheimer's disease and schizophrenia, evaluation of treatment effects in large clinical trials, diagnosis of cardiac diseases, and diagnosis prostate, breast and brain cancer. SBIA also performs small animal imaging research aiming to understand brain development in mouse models. It has multiple resources which can be accessed by researcher.
Proper citation: SBIA (RRID:SCR_013628) Copy
https://sbpdiscovery.org/research/centers/conrad-prebys-center-for-chemical-genomics/
The Conrad Prebys Center for Chemical Genomics (CPCCG) uses advanced screening technologies to identify high level chemical probes that interact with proteins involved in cellular processes. Optimization of these probes using medicinal chemistry and informatics will form the basis of a new generation of medicines. CPCCG is 1 of 4 Comprehensive Centers chosen nationally to be a part of the Molecular Libraries Probe Program (MLP), which established the Molecular Libraries Probe Production Centers Network (MLPCN). The goal is to produce small molecule probes that allow research into health and disease on the cellular level. CPCCG core services span a range of biochemical and cell-based screens for obtaining hits and provide chemistry resources for optimizing hits into probes or drug development. - Full scale screening capabilities and technology which can provide rapid screening on a broad diversity of assays and detection platforms - Several fully-integrated industrial-scale high-throughput screening (HTS) workstations - HTS microscopy/HCS and novel algorithm development for image analysis - Full hit-to-probe chemistry and exploratory pharmacology - Powerful NMR based Chemical Fragment Screening - Highly integrated informatics infrastructure and efficient data mining capabilities - Protein production facility - Cell production facility for scale-up tissue culture The CPCCG Screening Core can screen 96, 384 or 1536 well formats using either biochemical or cell-based assays, and can process over 300,000 wells per day. Total throughput capacity will climb to over 2 million compounds per day following the opening of Burnhams east coast campus in Lake Nona, Florida.
Proper citation: Conrad Prebys Center for Chemical Genomics (RRID:SCR_001687) Copy
ENFIN is a virtual institute to enable systems-level integration of experimental results. It is committed to provide a Europe-wide integration of computational approaches in systems biology. Its objectives are: - To develop a shared approach between traditionally dry and traditionally wet researchers in the area of systems-level interpretation of experimental results - To develop a distributed computational platform this integration and analysis of experimental data - To directly prove that such an approach has scientific value - To encourage and participate in the critical assessment of systems-level approaches - To disseminate knowledge and techniques to other academic researchers worldwide - To disseminate knowledge and techniques to commercial researchers, in particular European SMEs - To train young European researchers from a variety of backgrounds in system-level informatics techniques. The ENFIN Network runs four major platforms: A Joint Research Program covering the fields of Discrete Function Prediction, Network Reconstruction, Systems-Level Modeling, a Provision of Analysis Tools - EnSUITE, a Platform for Data Integration - EnCORE, and training Courses and Workshops on Systems Biology. Sponsors: The ENFIN project is funded by the European Commission within its FP6 Programme, under the thematic area Life sciences, genomics and biotechnology for health,contract number LSHG-CT-2005-518254.
Proper citation: Experimental Network for Functional Integration: A European Network of Excellence for Data Integration and Systems Biology (RRID:SCR_001724) Copy
http://mrtools.mgh.harvard.edu/index.php/TBR
A tool for functional connectivity analysis of fcMRI data that maps functional data from individual sessions onto a priori spatial components from group level parcellations.
Proper citation: Template Based Rotation (RRID:SCR_012157) Copy
http://openbabel.org/wiki/Main_Page
Software toolbox that is used to convert, analyze, or store data from molecular modeling, chemistry, biochemistry and other related areas. This software is used to read, write, and convert into over 110 chemical file formats.
Proper citation: Open Babel (RRID:SCR_014920) Copy
Center for Computational Biology as a joint research center in the McKusick-Nathans Institute of Genetic Medicine, spanning the School of Medicine, the Whiting School of Engineering, the Bloomberg School of Public Health, and the Krieger School of Arts & Sciences. Multidisciplinary center dedicated to research on genomics, genetics, DNA sequencing technology, and computational methods for DNA and RNA sequence analysis.
Proper citation: Center for Computational Biology at JHU (RRID:SCR_016680) Copy
http://www.reproducibleimaging.org
Center to help neuroimaging researchers to find and share data in FAIR fashion, to describe their data and analysis workflows in replicable fashion, to manage their computational resource options so that outcomes of neuroimaging research are more reproducible.
Proper citation: ReproNim: A Center for Reproducible Neuroimaging Computation (RRID:SCR_016001) Copy
Software designed for analysis of microscopy data. It performs sub-pixel precision detection, quantification of cells and fluorescence signals, as well as other image analysis functions.
Proper citation: Oufti (RRID:SCR_016244) Copy
https://github.com/YuanXue1993/SegAN
Image analysis software for medical image segmentation. The software is fueled by an end-to-end adversarial neural network that generates segmentation label maps.
Proper citation: SegAN (RRID:SCR_016215) Copy
Software integrated platform used for obtaining 3D structural information from single particle cryo-EM data. Enables automated, high quality and high-throughput structure discovery of proteins, viruses and molecular complexes for research and drug discovery.
Proper citation: cryoSPARC (RRID:SCR_016501) Copy
https://www.keyence.co.jp/products/microscope/fluorescence-microscope/bz-x700/models/bz-h3a/
Software tool as analysis application BZ-H3A by Keyence, Osaka, Japan for fluorescence microscope BZ-X series.
Proper citation: BZ-H3A analyzer software (RRID:SCR_017375) Copy
https://github.com/fritzsedlazeck/Sniffles
Software tool as structural variation caller using third generation sequencing (PacBio or Oxford Nanopore). It detects all types of SVs (10bp+) using evidence from split-read alignments, high-mismatch regions, and coverage analysis. Used to avoid single molecule long read sequencing high error rates.
Proper citation: Sniffles (RRID:SCR_017619) Copy
Software tool for image analysis by Cytiva. Automated image analysis software for general purpose electrophoresis gel, blot, arrays and colony counting.
Proper citation: Image Quant TL (RRID:SCR_018374) Copy
https://www.silkscientific.com/gel-analysis.htm
Software package for densitometry measurements of electrophoresis gels by Silk Scientific Inc. Gel analysis software. Turns scanner into gel densitometer. Works with most image formats (TIFF, JPG, BMP, GIF, etc.) from any scanner, digital camera, or other image source. Can quantify Western blots, Agarose gels, PCR gels, TLC.
Proper citation: UN-SCAN-IT Gel Analysis Software (RRID:SCR_017291) Copy
https://www.mbfbioscience.com/stereo-investigator-whole-slide-edition
Software tool for quantitative analysis using stereology on whole slide images. Used to analyze whole slide image data. Includes number, length, area and volume analyses.
Proper citation: Stereo Investigator - Whole Slide Edition (RRID:SCR_017667) Copy
https://www.indicalab.com/halo/
Software image analysis platform for quantitative tissue analysis in digital pathology by Indica Labs. Used for high-throughput, quantitative tissue analysis in oncology, neuroscience, metabolism, toxicology.
Proper citation: HALO (RRID:SCR_018350) Copy
https://www.essenbioscience.com/en/products/software/incucyte-chemotaxis-software/
IncuCyte™ Chemotaxis Cell Migration Software by Essen Bioscience. Add on software module for IncuCyte ZOOM® live cell analysis system. To analyze label free and fluorescently labeled chemotactic cell migration images acquired using ClearView Chemotaxis Plate.
Proper citation: IncuCyte® Chemotaxis Software (RRID:SCR_017316) Copy
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