Giovanni Micale, Salvatore Alaimo, Alfredo Pulvirenti
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引用次数: 0
摘要
动机:通路是描述基因、蛋白质、非编码rna、药物和化合物之间相互作用的生物网络,有助于发展特定的代谢功能或生物过程。识别与表型或病症相关的干扰通路有助于理解复杂疾病中功能过程的改变,以及哪些基因在这些改变中起关键作用。最近,已经开发了几种算法来识别与表型相关的干扰途径。然而,目前还没有工具可以可视化和比较同一物种或不同生物体中受干扰的途径。在这里,我们提出了一个名为PAthway COmparator (PACO)的web应用程序,从自定义数据或路径分析算法MITHrIL和PHENSIM返回的模拟数据开始,比较两组或多组与不同表型相关的改变路径。该应用程序允许用户可视化和比较改变的路径,并放大到特定区域。我们通过一个案例研究展示了PACO的潜在适用性,该案例研究比较了干扰素刺激基因15 (ISG15)上调后小鼠和人类受干扰的免疫系统途径。可用性和实现:PACO是作为一个Shiny R web应用程序实现的,可以在https://paco.dioncogen.eu/上获得。
PACO: a Shiny app for comparing perturbed pathways associated with different phenotypes.
Motivation: Pathways are biological networks describing interactions between genes, proteins, non-coding RNAs, drugs and chemical compounds that contribute to develop a specific metabolic function or biological process. Identifying perturbed pathways associated with a phenotype or condition helps to understand how functional processes are altered in complex diseases and which genes play a key role in these alterations. Recently, several algorithms have been developed to identify perturbed pathways associated with a phenotype. Still, no tools are available to visualize and compare perturbed pathways in the same species or different organisms.
Results: Here, we present a web app called PAthway COmparator (PACO) to compare two or more sets of altered pathways associated with different phenotypes, starting from either custom data or simulation data returned by the pathway analysis algorithms MITHrIL and PHENSIM. The app allows users to visualize and compare the altered pathways, and zoom into specific regions. We show the potential applicability of PACO through a case study in which perturbed immune system pathways are compared in mice and humans after up-regulation of Interferon-stimulated gene 15 (ISG15).
Availability and implementation: PACO is implemented as a Shiny R web application and is available at https://paco.dioncogen.eu/.
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