Gene-environment interactions (G×E) have been found to influence many human phenotypes and diseases. In genome-wide association studies (GWAS), G×E are usually difficult to detect due to the penalty of multiple testing correction. To address this issue, we here develop a new method to infer whether an environmental factor can attenuate or exacerbate the adverse effects of candidate genes while bypassing the harsh penalty of multiple testing. We first used PrediXcan to obtain the “genetically regulated expression” (GReX) and “transcriptome risk score” (TRS). Then, we calculated the sum of squared Z scores of TRS×E from all relevant phenotypes, and used resampling to detect whether the interaction between TRS and E is significant, and inferred whether environmental factors can attenuate or exacerbate the influence of a candidate gene. We applied our method to 25,460 subjects in the Taiwan Biobank. We analyzed the FTO gene (Fat mass and obesity-associated protein, Chromosome 16: 53,737,875-54,155,853 in GRCh37) that is related to obesity. Performing regular exercise or not was served as an environmental factor (E). We combined several obesity-related phenotypes, including waist circumference, hip circumference, body fat percentage and body mass index. According to our proposed method, several tissues suggest that performing regular exercise can attenuate the adverse impact of the FTO gene on obesity. We observed significant interactions between the FTO gene and regular exercise in different tissues, including thyroid (p-value = 0.00074), breast mammary (p-value = 0.00072), and tibial nerve (p-value = 0.0014). The amount of thyroid secretion is associated with obesity, and it is interesting that we detected FTO-by-exercise in this tissue. The method described in this study can infer whether an environmental factor attenuates or exacerbates the adverse influences of a candidate gene.