Human ribosomal protein S13 inhibits splicing of its own pre-mRNA

Abstract

Recombinant human ribosomal protein (rp) S13 was shown to specifically bind with its own pre-mRNA fragment containing the first exon, first intron, second exon, and a part of the second intron and to inhibit its splicing in vitro. The binding of rpS13 was specific: recombinant human rpS10 and rpS16 bound with the fragment to a lower extent. Moreover, rpS13 binding with the rpS13 pre-mRNA fragment was inhibited by non-labeled poly(AU) and an adenovirus pre-mRNA fragment to a lower extent than by the nonlabeled rpS13 pre-mRNA fragment. The specificity of splicing inhibition was inferred from the finding that, in contrast to rpS13, recombinant rpS10 and rpS16 did not affect the efficiency of first intron excision from the rpS13 pre-mRNA fragment. Enzymatic footprinting was used to determine the rpS13 pre-mRNA nucleotides whose accessibility to RNases T1, T2, and V1 changed in the presence of rpS13. Such nucleotides were detected close to the 5′ and 3′ splicing sites of the first intron. Analysis with the EMBOS-Align program showed that the nucleotide sequence of the first intron of the mammalian rpS13 pre-mRNA is conserved to a greater extent as compared with the other introns. It was assumed that the first intron plays an important role in regulating the expression of the rpS13 gene at the splicing level in all mammals.