Browsing by Subject "Systems Biology"
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Item Unknown Improvements on pathwaymapper: a collaborative pathway curation tool(Bilkent University, 2018-07) Dervishi, LeonardInformation visualization focuses on visually representing abstract data to amplify human cognition. Graph visualization is one of the most common types in the eld of information visualization because of its capabilities to present huge amount of data in a clear and meaningful manner. A graph is a suitable data structure for representing relational information and for this reason graph visualization has a wide usage in biological pathway visualization as well. In this thesis, we focus on collaborative construction of cancer pathways and visualization of cancer genomics data overlaid over such networks. Several biological pathway visualization tools have been developed to help biologists analyze cancer genomics data, using various formats, including standard formats like SBGN, in the past. Nevertheless, most biologists prefer curated pathway diagrams like the ones featured in The Cancer Genome Atlas (TCGA) manuscripts, using a simpler notation. These pathway diagrams outline the alterations occurring in pathways for di erent cancer types. To address this need, a web-based tool called PathwayMapper was previously developed. PathwayMapper can be used to view pre-curated cancer pathways or to create new pathways from scratch. It has many features including overlay of genomic alteration data from the cBioPortal. It also includes a collaborative mode so that the users can interactively create and modify the cancer pathways. With this thesis, we improve PathwayMapper in several ways to make it a more complete and powerful editor with a better user interface. New features include complexity management operations, edge bend support, interactive node resize, and various highlighting capabilities. Furthermore, the user interface has been improved to be more user friendly with the addition of a toolbar.Item Unknown SyBLaRS: A web service for laying out, rendering and mining biological maps in SBGN, SBML and more(Public Library of Science, 2022-11-14) Balcı, Hakan; Doğrusöz, Uğur; Özgül, Yusuf Ziya; Atayev, PermanVisualization is a key recurring requirement for effective analysis of relational data. Biology is no exception. It is imperative to annotate and render biological models in standard, widely accepted formats. Finding graph-theoretical properties of pathways as well as identifying certain paths or subgraphs of interest in a pathway are also essential for effective analysis of pathway data. Given the size of available biological pathway data nowadays, automatic layout is crucial in understanding the graphical representations of such data. Even though there are many available software tools that support graphical display of biological pathways in various formats, there is none available as a service for on-demand or batch processing of biological pathways for automatic layout, customized rendering and mining paths or subgraphs of interest. In addition, there are many tools with fine rendering capabilities lacking decent automatic layout support. To fill this void, we developed a web service named SyBLaRS (Systems Biology Layout and Rendering Service) for automatic layout of biological data in various standard formats as well as construction of customized images in both raster image and scalable vector formats of these maps. Some of the supported standards are more generic such as GraphML and JSON, whereas others are specialized to biology such as SBGNML (The Systems Biology Graphical Notation Markup Language) and SBML (The Systems Biology Markup Language). In addition, SyBLaRS supports calculation and highlighting of a number of wellknown graph-theoretical properties as well as some novel graph algorithms turning a specified set of objects of interest to a minimal pathway of interest. We demonstrate that SyBLaRS can be used both as an offline layout and rendering service to construct customized and annotated pictures of pathway models and as an online service to provide layout and rendering capabilities for systems biology software tools. SyBLaRS is open source and publicly available on GitHub and freely distributed under the MIT license. In addition, a sample deployment is available here for public consumption. © 2022 Balci et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.