RNA helicase Brr2 is required for the activation of the spliceosome prior to the first catalytic step of splicing. Brr2 represents a distinct subgroup of Ski2-like nucleic acid helicases whose members comprise tandem helicase cassettes. Only the Nterminal cassette of Brr2 is an active ATPase and can unwind substrate RNAs. The C-terminal cassette represents a pseudo-enzyme that can stimulate RNA-related activities of the N-terminal cassette. However, the molecular mechanisms, by which the C-terminal cassette modulates the activities of the N-terminal unit remain elusive. Here, we show that N-and C-terminal cassettes adopt vastly different relative orientations in a crystal structure of Brr2 in complex with an activating domain of the spliceosomal Prp8 protein as compared to the crystal structure of isolated Brr2. Likewise, the cassettes occupy different relative positions and engage in different intercassette contacts during different stages of splicing. Engineered disulfide bridges that lock the cassettes in two different relative orientations have opposite effects on RNA-related activities of the N-terminal cassette compared to the unrestrained protein.Moreover, different relative positioning of the cassettes strongly influences ATP hydrolysis by the N-terminal cassette. Our results demonstrate that the inactive C-terminal cassette of Brr2 can exert both positive and negative influence on the active N-terminal helicase unit from a distance. Medicine,