Data aggregation at the level of molecular pathways improves stability of experimental transcriptomic and proteomic dataстатья
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Дата последнего поиска статьи во внешних источниках: 23 ноября 2017 г.
Авторы:
Borisov N.,
Suntsova M.,
Sorokin M.,
Garazha A.,
Kovalchuk O.,
Aliper A.,
Ilnitskaya E.,
Lezhnina K.,
Korzinkin M.,
Tkachev V.,
Saenko V.,
Sokov DG,
Gaifullin NM,
Kashintsev K.,
Shirokorad V.,
Shabalina I.,
Zhavoronkov A.,
Mishra B.,
Cantor CR,
Buzdin A.
Аннотация:High throughput technologies opened a new era in biomedicine by enabling massive analysis of gene expression at both RNA and protein levels. Unfortunately, expression data obtained in different experiments are often poorly compatible, even for the same biological samples. Here, using experimental and bioinformatic investigation of major experimental platforms, we show that aggregation of gene expression data at the level of molecular pathways helps to diminish cross- and intra-platform bias otherwise clearly seen at the level of individual genes. We created a mathematical model of cumulative suppression of data variation that predicts the ideal parameters and the optimal size of a molecular pathway. We compared the abilities to aggregate experimental molecular data for the five alternative methods, also evaluated by their capacity to retain meaningful features of biological samples. The bioinformatic method OncoFinder showed optimal performance in both tests and should be very useful for future cross-platform data analyses.