Stress granules (SGs) are formed when untranslated messenger ribonucleoproteins (mRNPs) accumulate in cells under stress, and are thought to minimize stress-induced damage and promote cell survival. RBM24 (RNA-binding motif protein 24) is an RNA-binding protein that plays pivotal roles in regulating the stability or translation initiation of target mRNAs as well as alternative splicing of target pre-mRNAs. Its important physiological functions are highlighted by the fact that Rbm24 knockout mice or zebrafish suffer from dysfunction of heart, eye, and inner ear. Here we show that RBM24 is recruited into SGs under various stress conditions, suggesting that it might protect its target RNAs in cells under stress. However, SG formation is unaffected when Rbm24 expression is down-regulated. Nevertheless, RBM24 overexpression in cultured cells is sufficient to induce SG formation, suggesting that RBM24 might play an important role in SG formation. In conclusion, our present work reveals that RBM24 is a SG component, which implies that RBM24 could protect its target mRNAs in stressed cells.