RECQL5 KIX domain splicing isoforms have distinct functions in transcription repression and DNA damage response

•A new RECQL5 isoform RECQL5β1 has 17 additional amino acids within the KIX domain.•RECQL5β1, with strong MRE11 binding affinity, has a specialized role in DNA repair.•The canonical RECQL5β mainly functions as a transcription repressor.•This study demonstrated a case of functional specialization via splicing isoforms. RecQL5, a mammalian RecQ family protein, is involved in the regulation of transcription elongation, DNA damage response, and DNA replication. Here, we identified and characterized an alternative splicing isoform of RECQL5 (RECQL5β1), which contains 17 additional amino acid residues within the RECQL5 KIX domain when compared with the canonical isoform (RECQL5β). RECQL5β1 had a markedly decreased binding affinity to RNA polymerase II (Pol II) and poorly competed with the transcription elongation factor TFIIS for binding to Pol II. As a result, this isoform has a weaker activity for repression of transcription elongation. In contrast, we discovered that RECQL5β1 could bind stronger to MRE11, which is a primary sensor of DNA double-strand breaks (DSBs). Furthermore, we found that RECQL5β1 promoted DNA repair in the RECQL5β1 rescue cells. These results suggest that RECQL5β mainly functions as a transcription repressor, while the newly discovered RECQL5β1 has a specialized role in DNA damage response. Taken together, our data suggest a cellular-functional specialization for each KIX splicing isoform in the cell.