Liu H X, Zhang M, Krainer A R
Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724-2208 USA.
Genes Dev. 1998 Jul 1;12(13):1998-2012. doi: 10.1101/gad.12.13.1998.
Using an in vitro randomization and functional selection procedure, we have identified three novel classes of exonic splicing enhancers (ESEs) recognized by human SF2/ASF, SRp40, and SRp55, respectively. These ESEs are functional in splicing and are highly specific. For SF2/ASF and SRp55, in most cases, only the cognate SR protein can efficiently recognize an ESE and activate splicing. In contrast, the SRp40-selected ESEs can function with either SRp40 or SRp55, but not with SF2/ASF. UV cross-linking/competition and immunoprecipitation experiments showed that SR proteins recognize their cognate ESEs in nuclear extract by direct and specific binding. A motif search algorithm was used to derive consensus sequences for ESEs recognized by these SR proteins. Each SR protein yielded a distinct 5- to 7-nucleotide degenerate consensus. These three consensus sequences occur at higher frequencies in exons than in introns and may thus help define exon-intron boundaries. They occur in clusters within regions corresponding to naturally occurring, mapped ESEs. We conclude that a remarkably diverse set of sequences can function as ESEs. The degeneracy of these motifs is consistent with the fact that exonic enhancers evolved within extremely diverse protein coding sequences and are recognized by a small number of SR proteins that bind RNA with limited sequence specificity.
通过体外随机化和功能选择程序,我们分别鉴定出了三类由人SF2/ASF、SRp40和SRp55识别的新型外显子剪接增强子(ESE)。这些ESE在剪接中具有功能且高度特异。对于SF2/ASF和SRp55,在大多数情况下,只有同源的SR蛋白能有效识别ESE并激活剪接。相比之下,SRp40选择的ESE可与SRp40或SRp55起作用,但不能与SF2/ASF起作用。紫外线交联/竞争和免疫沉淀实验表明,SR蛋白通过直接和特异性结合在核提取物中识别其同源ESE。使用基序搜索算法推导这些SR蛋白识别的ESE的共有序列。每个SR蛋白产生一个独特的5至7个核苷酸的简并共有序列。这三个共有序列在外显子中的出现频率高于在内含子中的频率,因此可能有助于界定外显子-内含子边界。它们在与天然存在的、已定位的ESE相对应的区域内成簇出现。我们得出结论,一组非常多样的序列可作为ESE发挥作用。这些基序的简并性与外显子增强子在极其多样的蛋白质编码序列中进化且被少数以有限序列特异性结合RNA的SR蛋白识别这一事实一致。