Abstract
Splicing of small introns in lower eucaryotes can be distinguished from vertebrate splicing by the inability of such introns to be expanded and by the inability of splice site mutations to cause exon skipping-properties suggesting that the intron rather than the exon is the unit of recognition. Vertebrates do contain small introns. To see if they possess properties similar to small introns in lower eucaryotes, we studied the small second intron from the human alpha-globin gene. Mutation of the 5' splice site of this intron resulted in in vivo intron inclusion, not exon skipping, suggesting the presence of intron bridging interactions. The intron had an unusual base composition reflective of a sequence bias present in a collection of small human introns in which multiple G triplets stud the interior of the introns. Each G triplet represented a minimal sequence element additively contributing to maximal splicing efficiency and spliceosome assembly. More importantly, G triplets proximal to a duplicated splice site caused preferential utilization of the 5' splice site upstream of the triplets or the 3' splice site downstream of the triplets; i.e., sequences containing G triplets were preferentially used as introns when a choice was possible. Thus, G triplets internal to a small intron have the ability to affect splice site decisions at both ends of the intron. Each G triplet additively contributed to splice site selectivity. We suggest that G triplets are a common component of human 5' splice sites and aid in the definition of exon-intron borders as well as overall splicing efficiency. In addition, our data suggest that such intronic elements may be characteristic of small introns and represent an intronic equivalent to the exon enhancers that facilitate recognition of both ends of an exon during exon definition.
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