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http://maq.sourceforge.net/maqview.shtml
A graphical read alignment viewer specifically designed for the Maq alignment file and allows you to see the mismatches, base qualities and mapping qualities. It is highly efficient in speed, memory and disk usage. Maqview is based on OpenGL and is known to work on both Mac OS X and Linux. Porting to Windows is in principle easy.
Proper citation: Maqview (RRID:SCR_005632) Copy
http://athina.biol.uoa.gr/bioinformatics/GENEVITO/
A JAVA-based computer application that serves as a workbench for genome-wide analysis through visual interaction. GeneViTo offers an inspectional view of genomic functional elements, concerning data stemming both from database annotation and analysis tools for an overall analysis of existing genomes. The application deals with various experimental information concerning both DNA and protein sequences (derived from public sequence databases or proprietary data sources) and meta-data obtained by various prediction algorithms, classification schemes or user-defined features. Interaction with a Graphical User Interface (GUI) allows easy extraction of genomic and proteomic data referring to the sequence itself, sequence features, or general structural and functional features. Emphasis is laid on the potential comparison between annotation and prediction data in order to offer a supplement to the provided information, especially in cases of poor annotation, or an evaluation of available predictions. Moreover, desired information can be output in high quality JPEG image files for further elaboration and scientific use. GeneViTo has already been applied to visualize the genomes of two microbial organisms: the bacterion Chlamydia trachomatis and the archaeon Methanococcus jannaschii. The application is compatible with Linux or Windows ME-2000-XP operating systems, provided that the appropriate Java Runtime Environment (Java 1.4.1) is already installed in the system.
Proper citation: GeneVito (RRID:SCR_006211) Copy
http://tree.bio.ed.ac.uk/software/figtree
A graphical viewer of phylogenetic trees and a program for producing publication-ready figures. It is designed to display summarized and annotated trees produced by BEAST.
Proper citation: FigTree (RRID:SCR_008515) Copy
http://portal.ncibi.org/gateway/bcde.html
Biological Concept Diagram Editor (BCDE) is a conceptual relationship diagramming tool specifically designed for biomedical researchers. It allows for efficient knowledge and data capture, fast diagram creation, easy data retrieval, and flexible exporting. The BCDE application is the main diagramming tool in the system. Through it, users can create, modify, load, and save BCDE diagrams. The diagrams created with BCDE application are network oriented. Each BCDE figure can be annotated using fields from the BioPAX level II format. In addition, a user can add URL links and attachments to a BCDE figure. Diagrams generated in BCDE are stored in the BCDE XML format for better database integration and better data extraction.
Proper citation: Biological Concept Diagram Editor (RRID:SCR_008654) Copy
http://ncmir.ucsd.edu/downloads/fido.shtm
An interactive, graphic, fiducial marking software for placing, editing and tracking fiducial marks on images in a tomography tilt series. You can also use this tool to view the tilt series as well as crop it.
Proper citation: XFido (RRID:SCR_007365) Copy
http://www.ncdc.noaa.gov/paleo/softlib/paleovu.html
A complete browse and visualization tool for all types of paleoclimate and paleoecological data (Version 1.0 for Windows 3.1 and the Macintosh). Point and click to create queries, list site information, display or plot variables and data, or export the data for further processing and analysis. Note: PaleoVu is no longer maintained or supported. Data content is not being updated, and compatibility problems may exist with newer operating systems. PaleoVu is still suitable as a teaching tool, but our internet-based browsing tools are the most up to date source for paleoclimatic data.
Proper citation: PaleoVu (RRID:SCR_002411) Copy
http://www.nitrc.org/projects/neuroscope/
An advanced viewer for electrophysiological and behavioral data: it can display local field potentials (EEG), neuronal spikes, behavioral events, as well as the position of the animal in the environment. It also features limited editing capabilities.
Proper citation: NeuroScope (RRID:SCR_002455) Copy
http://jonathancrabtree.github.io/Circleator/
A Perl-based visualization software tool that generates circular figures of genome-associated data. Common uses of the tool include: * Displaying the sequence and/or genes in a GenBank flat file. * Highlighting differences and/or similarities in gene content between related organisms. * Comparing SNPs and indels between closely-related strains or serovars. * Comparing gene expression values across multiple samples or timepoints. * Visualizing coverage plots of RNA-Seq read alignments.
Proper citation: Circleator (RRID:SCR_002801) Copy
http://www.LONI.usc.edu/Software/ShapeViewer
Java-based geometry viewer that supports file formats used by Center for Computational Biology (CCB) researchers and provides necessary viewing functions. ShapeViewer uses ShapeTools library support to read and display LONI Ucf, VTX XML, FreeSurfer, Minc Obj (both binary and ascii), Open Dx, Gifti, and OFF format data files.
Proper citation: LONI ShapeViewer (RRID:SCR_002695) Copy
http://portal.ncibi.org/gateway/mimiplugin.html
The Cytoscape MiMI Plugin is an open source interactive visualization tool that you can use for analyzing protein interactions and their biological effects. The Cytoscape MiMI Plugin couples Cytoscape, a widely used software tool for analyzing bimolecular networks, with the MiMI database, a database that uses an intelligent deep-merging approach to integrate data from multiple well-known protein interaction databases. The MiMI database has data on 119,880 molecules, 330,153 interactions, and 579 complexes. By querying the MiMI database through Cytoscape you can access the integrated molecular data assembled in MiMI and retrieve interactive graphics that display protein interactions and details on related attributes and biological concepts. You can interact with the visualization by expanding networks to the next nearest neighbors and zooming and panning to relationships of interest. You also can perceptually encode nodes and links to show additional attributes through color, size and the visual cues. You can edit networks, link out to other resources and tools, and access information associated with interactions that has been mined and summarized from the research literature information through a biology natural language processing database (BioNLP) and a multi-document summarization system, MEAD. Additionally, you can choose sub-networks of interest and use SAGA, a graph matching tool, to match these sub-networks to biological pathways.
Proper citation: MiMI Plugin for Cytoscape (RRID:SCR_003424) Copy
http://www.nitrc.org/projects/mriwatcher/
This simple visualization tool allows to load several images at the same time. The cursor across all windows are coupled and you can move/zoom on all the images at the same time. Very useful for quality control, image comparison.
Proper citation: MriWatcher (RRID:SCR_002318) Copy
http://www.nitrc.org/projects/cabn/
Construct and analyse brain network is a brain network visualization tool, which can help researchers to visualize construct and analyse resting state functional brain networks from different levels in a quick, easy and flexible way. Entrance parameter of construct and analyse brain network is export parameters of dparsf software.It would be greatly appreciated if you have any suggestions about the package or manual.
Proper citation: BrainNetworkConstructionAnalysisPlatform (RRID:SCR_000854) Copy
http://www.nitrc.org/projects/meshmetric3d/
Software visualization tool based on the VTK library. Its main feature is to measure and display surface-to-surface distance between two triangle meshes using user-specified uniform sampling. Offers all the basic tools to visualize meshes such as color, opacity, smoothing, down sampling or type of representation.
Proper citation: 3DMeshMetric (RRID:SCR_000043) Copy
http://www.ia.unc.edu/dev/download/mriwatcher/index.htm
THIS RESOURCE IS NO LONGER IN SERVICE, documented August 23, 2016. A visualization tool for MRI images which handles several formats (.gipl,.mha,.hdr). It uses integrated coupled cursors to show the differences between images. It can load an overlay image and make screenshots.
Proper citation: MRI Watcher (RRID:SCR_000710) Copy
https://code.google.com/p/bamseek/
A Large File Viewer for BAM and SAM alignment files.
Proper citation: BAMseek (RRID:SCR_000672) Copy
http://nrg.wustl.edu/projects/fiv
A tool for visualizing functional and anatomic MRI data.
Proper citation: FIV (RRID:SCR_009575) Copy
http://www.imagilys.com/brainmagix-spm-viewer/
A free, professional viewer for SPM fMRI results. SPM (Statistical Parametric Mapping, UCL, London) is a powerful fMRI analysis software but its visualization capabilities are sometimes a limitation for the researchers. That's why Imagilys has decided to offer the neuroimaging community a free version of its commercial "BrainMagix" neuroimaging software, called "BrainMagix SPM viewer". BrainMagix SPM Viewer's Features - Professional viewer for your SPM-based fMRI activations - JAVA-programmed, cross-platform (Windows, MAC, Linux), without Matlab license, making it possible to share your results with colleagues who do not have SPM installed - Reads SPM.mat files and NIfTI images in an user-friendly way - Overlay the blobs with an atlas or any anatomical image - On the fly adjustment of threshold and cluster size - Localize your activations in an atlas - BOLD signal curves in ROIs (future feature) - Export your results as PNG images
Proper citation: BrainMagix SPM Viewer (RRID:SCR_009537) Copy
http://cocomac.org/WWW/paxinos3D/index.html
An interactive interface of macaque stereotaxic atlas with a connectivity database, allowing integrated data analysis and mapping between 3D structures with database vocabularies. These Java-based tools are capable of reading stacks of polygons described in svg vector format and arrange them in 3D space so that the corresponding structures can be viewed and manipulated individually. An additional excel (currently v. 1997-2003) file maintains the structure abbreviations and their mapping to the terminology of databases that provide supplementary information. Here in particular we have manually drawn the cortical, striatal, thalamic and amygdaloid structures of the 151 frontal sections from the Rhesus Monkey Brain in Stereotactic Coordinates authored by Paxinos and colleagues in 1999. After loading the excel file and a set of the svg files, the view can be rotated, zoomed and individual brain structures be selected for identification and simple geometric measures. A stereotaxic grid is a display option. The abbreviations of the brain structures are mapped to entities recorded in the CoCoMac database of primate brain connectivity. Thereby one can retrieve mapping and connectivity information for the selected structure as text or connecting arrows.
Proper citation: CoCoMac-Paxinos3D viewer (RRID:SCR_009548) Copy
A visualization environment that enables you, via your computer, to display and interact with hundreds of neuroimaging data sets at once ?bringing together brain image data from some of the world?s best neuroscience research teams. INVIZIAN empowers both researchers and students of neuroscience to explore and understand the human brain using a simple yet powerful user interface for neuroimaging data exploration and discovery. See a beautiful example of a cloud of individual brains tumbling around in the INVIZIAN interface in Vimeo (http://vimeo.com/67984681). Visit often to see how we are making continuing progress to make Invizian even more amazing.
Proper citation: INVIZIAN (RRID:SCR_009549) Copy
http://www.mi.med.osaka-u.ac.jp/gpetview/gpetview.html
GpetView is light-weight image viewer based on Gtk+ library. The supported image format is ANALYZE(TM) format (Mayo Foundation ). GpetView can run on Unix-systems, such as Linux, Solaris, IRIX, Mac OS-X etc. From Version 2.0, GpetView can also run on Win32 system, if you have installed Glib and Gtk+(2.x). Glib andGtk+ can be found at http://www.gtk.org. For Windows users, you can find Gtk+ libraries at http://gladewin32.sourceforge.net/modules/news/ GpetView has the following features: * very light-weight * view images as transverse, coronal, or sagittal * change color-map (support Analyze lkup file) * zoom images * ROI (Region-Of-Interest) with shapes of circle, ellipse, rectangle, polygon and automatic edge detection * Image histogram and profile Sponsors: This resource is supported by Osaka University. Keywords: Image, Viewer, Software, Transverse, Coronal, Sagittal, Map, Histogram,
Proper citation: Gtk-based Analyze Image Viewer (RRID:SCR_013282) Copy
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