Ataxin-2 (Atx2), an RNA-binding protein, plays a pivotal role in the regulation of RNA, intracellular metabolism, and translation within the cellular environment. Although both the Sm-like (LSm) and LSm-associated (LSmAD) domains are considered to associated with RNA binding, there is still a lack of experimental evidence supporting their functions. To address this, we designed and constructed several recombinants containing the RNA-binding domain (RBD) of Atx2. By employing biophysical and biochemical techniques, such as EMSA and SHAPE chemical detection, we identified that LSm is responsible for RNA binding, whereas LSmAD alone does not bind RNA. NMR and small-angle X-ray scattering (SAXS) analyses have revealed that the LSmAD domain exhibits limited structural integrity and poor folding capability. The EMSA data confirmed that both LSm and LSm-LSmAD bind RNA, whereas LSmAD alone cannot, suggesting that LSmAD may serve as an auxiliary role to the LSm domain. SHAPE chemical probing further demonstrates that LSm binds to the AU-rich, GU-rich, or CU-rich sequence, but not to the CA-rich sequence. These findings indicate that Atx2 can interact with the U-rich sequences in the 3'-UTR, implicating its role in poly(A) tailing and the regulation of mRNA translation and degradation.
Keywords: Ataxin-2; LSm; LSmAD; RNA binding; SHAPE; U-rich.