TY - JOUR T1 - Sparsely-Connected Autoencoder (SCA) for single cell RNAseq data mining JF - bioRxiv DO - 10.1101/2020.05.26.117705 SP - 2020.05.26.117705 AU - L Alessandri AU - F Cordero AU - M Beccuti AU - N Licheri AU - M Arigoni AU - M Olivero AU - F Di Renzo AU - A Sapino AU - RA Calogero Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/05/30/2020.05.26.117705.abstract N2 - Single-cell RNA sequencing (scRNAseq) is an essential tool to investigate cellular heterogeneity. Although scRNAseq has some technical challenges, it would be of great interest being able to disclose biological information out of cell subpopulations, which can be defined by cluster analysis of scRNAseq data. In this manuscript, we evaluated the efficacy of sparsely-connected autoencoder (SCA) as tool for the functional mining of single cells clusters. We show that SCA can be uses as tool to uncover hidden features associated to scRNAseq data. Our approach is strengthened by two metrics, QCF and QCM, which respectively allow to evaluate the ability of SCA to reconstruct a cells cluster and to evaluate the overall quality of the neural network model. Our data indicate that SCA encoded spaces, derived by different experimentally validated data (TFs targets, miRNAs targets, Kinases targets, and cancer-related immune signatures), can be used to grasp single cell cluster-specific functional features. In our implementation, SCA efficacy comes from its ability to reconstruct only specific clusters, thus indicating only those clusters where the SCA encoding space is a key element for cells aggregation. SCA analysis is implemented as module in rCASC framework and it is supported by a GUI to simplify it usage for biologists and medical personnel.Competing Interest StatementThe authors have declared no competing interest. ER -