Mammals
Budding
yeast
Exon definitionIntron definitionExon ISSU2 65 35U2AFYNYURAYUACUAACY(n) YAGU(n) YAG30 ntESE ESS GU ISE ExonExonU15 ′ splice site5 ′ splice site3 ′ splice site3 ′ splice siteBranch siteBranch sitePoly(Y)
tractPoly(U)
tractGURAGUExon GUAUGUU1 U2Figure 7.1 Conserved sequence elements of mammalian and budding yeast pre-mRNAs. Exons (cylinders) are separated
by introns (lines). The consensus sequences in mammals and budding yeast at the 5′ splice site, branch site, and 3′ splice
site are as indicated. N is any nucleotide, R is purine, and Y is pyrimidine. Mammals contain a polypyrimidine-rich stretch;
S. cerevisiae contains a polyuridine-rich stretch. Both are located between the branch site and the 3′ splice site. In
mammals, cross-exon complexes are formed during early stages of spliceosome assembly, while in S. cerevisiae the introns
are defined. The spliceosomal snRNPs U1 and U2 (green) are shown interacting with the splice sites. Mammals additionally
have the U2 auxiliary factor (U2AF), U2AF65 and U2AF35 (green) interacting with the 3′ splice site. They also use auxiliary
regulatory elements that either enhance the splicing process, namely, exonic and intronic splicing enhancers (ESE and ISE,
dark green cylinders), or inhibit spliceosome assembly, such as exonic and intronic splicing silencers (ESS and ISS, red
cylinders). These elements are often bound by SR proteins and hnRNPs.