ZIPG-SK: A Novel Knockoff-Based Approach for Variable Selection in Multi-Source Count Data

The rapid development of sequencing technology has generated complex, highly skewed, and zero-inflated multi-source count data. This has posed significant challenges in variable selection, which is crucial for uncovering shared disease mechanisms, such as tumor development and metabolic dysregulation. In this study, we propose a novel variable selection method called Zero-Inflated Poisson-Gamma based Simultaneous knockoff (ZIPG-SK) for multi-source count data. To address the highly skewed and zero-inflated properties of count data, we introduce a Gaussian copula based on the ZIPG distribution for constructing knockoffs, while also incorporating the information of covariates. This method successfully detects common features related to the results in multi-source data while controlling the false discovery rate (FDR). Additionally, our proposed method effectively combines e-values to enhance power. Extensive simulations demonstrate the superiority of our method over Simultaneous Knockoff and other existing methods in processing count data, as it improves power across different scenarios. Finally, we validated the method by applying it to two real-world multi-source datasets: colorectal cancer (CRC) and type 2 diabetes (T2D). The identified variable characteristics are consistent with existing studies and provided additional insights.