Decreasing the distance between the two conserved sequence elements of histone pre-messenger RNA interferes with 3' processing in vitro.

Histone mRNA 3' end formation requires the presence of two cis-acting conserved sequence elements: a stem-loop structure upstream from the site of cleavage and a purine-rich region downstream from the site of cleavage called the histone downstream element (HDE). Possible interactions between these two elements and their respective binding factors were investigated by a series of deletions (1-7 nt) in the region between the two. The efficiency of processing decreased as the stem-loop and the HDE were moved closer together. In contrast with the documented ability of the U7 snRNP to direct cleavage at a fixed distance from the HDE in insertion mutants (Scharl & Steitz, 1994), all deletion substrates for which processing was observed were cleaved at or 1-nt upstream from the wild-type site. The reason for the inability of the system to cleave closer to the stem-loop remains unclear, but the removal of stem-loop binding protein(s) (SLBP) did not activate upstream cleavage events. Thus, although the processing machinery measures the distance between the cleavage site and the HDE of mammalian histone pre-mRNAs, there is a barrier limiting how far upstream cleavage can occur. These data allow a reevaluation of the sites of 3' end processing in known histone pre-mRNAs.