Detalle Publicación

CANCERTOOL: A Visualization and Representation Interface to Exploit Cancer Datasets
Autores: Cortazar, A.R.; Torrano, V.; Martín-Martín, N.; Caro-Maldonado, A.; Camacho, L.; Hermanova, I.; Guruceaga Martínez, Elisabet; Lorenzo-Martín, L.F.; Caloto, R.; Gomis, R.R.; Apaolaza Emparanza, Iñigo; Quesada, V.; Trka, J.; Gomez-Muñoz, A.; Vicent Cambra, Silvestre; Bustelo, X.R.; Planes Pedreño, Francisco Javier; Aransay, A.M. (Autor de correspondencia); Carracedo, A. (Autor de correspondencia)
Título de la revista: CANCER RESEARCH
ISSN: 0008-5472
Volumen: 78
Número: 21
Páginas: 6320 - 6328
Fecha de publicación: 2018
Lugar: WOS
With the advent of OMICs technologies, both individual research groups and consortia have spear-headed the characterization of human samples of multiple pathophysiologic origins, resulting in thousands of archived genomes and transcriptomes. Although a variety of web tools are now available to extract information from OMICs data, their utility has been limited by the capacity of nonbioinformatician researchers to exploit the information. To address this problem, we have developed CANCERTOOL, a web-based interface that aims to overcome the major limitations of public transcriptomics dataset analysis for highly prevalent types of cancer (breast, prostate, lung, and colorectal). CANCERTOOL provides rapid and comprehensive visualization of gene expression data for the gene(s) of interest in well-annotated cancer datasets. This visualization is accompanied by generation of reports customized to the interest of the researcher (e.g., editable figures, detailed statistical analyses, and access to raw data for reanalysis). It also carries out gene-to-gene correlations in multiple datasets at the same time or using preset patient groups. Finally, this new tool solves the time-consuming task of performing functional enrichment analysis with gene sets of interest using up to 11 different databases at the same time. Collectively, CANCERTOOL represents a simple and freely accessible interface to interrogate well-annotated datasets and obtain publishable representations that can contribute to refinement and guidance of cancer-related investigations at all levels of hypotheses and design.Significance: In order to facilitate access of research groups without bioinformatics support to public transcriptomics data, we have developed a free online tool with an easy-to-use interface that allows researchers to obtain quality information in a readily publishable format.