Defective or imbalanced expression of spliceosomal factors has been linked to human disease; however, how a defective spliceosome affects intron-containing gene transcripts in human cells is largely unknown. DEAH-box protein DHX16 is a human orthologue of Saccharomyces cerevisiae spliceosomal protein Prp2, an RNA-dependent ATPase that activates the spliceosome before the first catalytic step of splicing. Yeast prp2 mutants accumulate unspliced RNAs from the vast majority of intron-containing genes. Here we used a genomic tiling microarray to screen transcripts from four chromosomes in human cells expressing a dominant negative DHX16 mutant and identified a number of gene transcripts that retained their introns. The mutant protein also affected gene transcripts that are sensitive to pladienolide, an SF3b inhibitor. The unspliced RNAs were retained in the nucleus, and block of nonsense-mediated decay did not affect their accumulation. Thus, a perturbation of human PRP2/DHX16 results in accumulation of unspliced transcripts, similar to the outcome in yeast prp2 mutants. The results further suggest that mutant DHX16/hPRP2 causes a defective spliceosome to retain unspliced gene transcripts in the nuclei of human cells.