Application of microarrays in omics technologies enables quantification of many biomolecules simultaneously. It is widely applied to observe the positive or negative effect on biomolecule activity in perturbed versus the steady state by quantitative comparison. Community resources, such as Bioconductor and CRAN, host tools based on R language that have become standard for high-throughput analytics. However, application of these tools is technically challenging for generic users and require specific computational skills. There is a need for intuitive and easy-to-use platform to process omics data, visualize, and interpret results.
eUTOPIA: SolUTion for Omics data PreprocessIng and Analysis / Marwah, V. S.; Scala, G.; Kinaret, P. A. S.; Serra, A.; Alenius, H.; Fortino, V.; Greco, D.. - In: SOURCE CODE FOR BIOLOGY AND MEDICINE. - ISSN 1751-0473. - 14:1(2019), p. 1. [10.1186/s13029-019-0071-7]
eUTOPIA: SolUTion for Omics data PreprocessIng and Analysis
Scala G.;
2019
Abstract
Application of microarrays in omics technologies enables quantification of many biomolecules simultaneously. It is widely applied to observe the positive or negative effect on biomolecule activity in perturbed versus the steady state by quantitative comparison. Community resources, such as Bioconductor and CRAN, host tools based on R language that have become standard for high-throughput analytics. However, application of these tools is technically challenging for generic users and require specific computational skills. There is a need for intuitive and easy-to-use platform to process omics data, visualize, and interpret results.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
