Abstract
All trypanosome mRNAs have a spliced leader (SL). The SL RNA gene in Leptomonas seymouri is a member of the small nuclear RNA gene family. However, the SL RNA is required in stoichiometric amounts for trans-splicing during mRNA formation. Expression of the SL RNA gene requires sequence elements at bp −60 to −70 and bp −30 to −40 upstream from the transcription initiation site. Using conventional and affinity chromatography, we have identified and characterized an ∼122-kDa protein, promoter-binding protein (PBP) −1, that binds to double-strand DNA. The PBP-1-binding site is within the bp −60 to −70 element determined by DNase I footprinting. Therefore, PBP-1 is the first characterized double-strand DNA binding activity that interacts with a trypanosome gene promoter. A second protein, PBP-2, interacts with the PBP-1:DNA complex and its DNase I footprint extends to include the second promoter element (bp −30 to −40). An alteration of the spacing between the two promoter elements or mutation of the second element decreases PBP-2/PBP-1:DNA stability. Taken together, these data suggest that PBP-1 and PBP-2 are components of a transcription initiation complex that assembles within the SL RNA gene promoter.