Parra Marilyn K, Tan Jeff S, Mohandas Narla, Conboy John G
Life Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA.
EMBO J. 2008 Jan 9;27(1):122-31. doi: 10.1038/sj.emboj.7601957. Epub 2007 Dec 13.
In the protein 4.1R gene, alternative first exons splice differentially to alternative 3' splice sites far downstream in exon 2'/2 (E2'/2). We describe a novel intrasplicing mechanism by which exon 1A (E1A) splices exclusively to the distal E2'/2 acceptor via two nested splicing reactions regulated by novel properties of exon 1B (E1B). E1B behaves as an exon in the first step, using its consensus 5' donor to splice to the proximal E2'/2 acceptor. A long region of downstream intron is excised, juxtaposing E1B with E2'/2 to generate a new composite acceptor containing the E1B branchpoint/pyrimidine tract and E2 distal 3' AG-dinucleotide. Next, the upstream E1A splices over E1B to this distal acceptor, excising the remaining intron plus E1B and E2' to form mature E1A/E2 product. We mapped branchpoints for both intrasplicing reactions and demonstrated that mutation of the E1B 5' splice site or branchpoint abrogates intrasplicing. In the 4.1R gene, intrasplicing ultimately determines N-terminal protein structure and function. More generally, intrasplicing represents a new mechanism by which alternative promoters can be coordinated with downstream alternative splicing.
在蛋白质4.1R基因中,不同的首个外显子会以不同方式剪接到外显子2'/2(E2'/2)中位于下游远处的不同3'剪接位点。我们描述了一种新型的内部剪接机制,通过该机制,外显子1A(E1A)仅通过由外显子1B(E1B)的新特性调控的两个嵌套剪接反应剪接到远端E2'/2受体。在第一步中,E1B作为一个外显子,利用其共有5'供体剪接到近端E2'/2受体。切除下游内含子的一个长区域,使E1B与E2'/2并列,产生一个新的复合受体,该受体包含E1B分支点/嘧啶序列和E2远端3'AG二核苷酸。接下来,上游的E1A越过E1B剪接到这个远端受体,切除剩余的内含子加上E1B和E2',形成成熟的E1A/E2产物。我们绘制了两个内部剪接反应的分支点,并证明E1B 5'剪接位点或分支点的突变会消除内部剪接。在4.1R基因中,内部剪接最终决定了蛋白质的N端结构和功能。更普遍地说,内部剪接代表了一种新机制,通过该机制,可变启动子可以与下游的可变剪接相协调。
