Hoffman B E, Lis J T
Department of Molecular Biology, Cornell University, Ithaca, New York 14853, USA.
Mol Cell Biol. 2000 Jan;20(1):181-6. doi: 10.1128/MCB.20.1.181-186.2000.
B52, an essential SR protein of Drosophila melanogaster, stimulates pre-mRNA splicing in splicing-deficient mammalian S100 extracts. Surprisingly, mutant larvae depleted of B52 were found to be capable of splicing at least several pre-mRNAs tested (H. Z. Ring and J. T. Lis, Mol. Cell. Biol. 14:7499-7506, 1994). In a homologous in vitro system, we demonstrated that B52 complements a Drosophila S100 extract to allow splicing of a Drosophila fushi tarazu (ftz) mini-pre-mRNA. Moreover, Kc cell nuclear extracts that were immunodepleted of B52 lost their ability to splice this ftz pre-mRNA. In contrast, splicing of this same ftz pre-mRNA occurred in whole larvae homozygous for the B52 deletion. Other SR protein family members isolated from these larvae could substitute for B52 splicing activity in vitro. We also observed that SR proteins are expressed variably in different larval tissues. B52 is the predominant SR protein in specific tissues, including the brain. Tissues in which B52 is normally the major SR protein, such as larval brain tissue, failed to produce ftz mRNA in the B52 deletion line. These observations support a model in which the lethality of the B52 deletion strain is a consequence of splicing defects in tissues in which B52 is normally the major SR protein.
B52是黑腹果蝇的一种必需SR蛋白,可在剪接缺陷的哺乳动物S100提取物中刺激前体mRNA剪接。令人惊讶的是,发现缺失B52的突变幼虫能够剪接至少几种测试的前体mRNA(H.Z.Ring和J.T.Lis,《分子与细胞生物学》14:7499 - 7506,1994)。在一个同源体外系统中,我们证明B52补充了果蝇S100提取物,以允许剪接果蝇分节基因(ftz)的微型前体mRNA。此外,免疫去除B52的Kc细胞核提取物失去了剪接这种ftz前体mRNA的能力。相比之下,在B52缺失纯合的整个幼虫中发生了相同ftz前体mRNA的剪接。从这些幼虫中分离出的其他SR蛋白家族成员可以在体外替代B52的剪接活性。我们还观察到SR蛋白在不同的幼虫组织中表达不同。B52是特定组织(包括大脑)中的主要SR蛋白。在B52缺失系中,正常情况下B52是主要SR蛋白的组织,如幼虫脑组织,未能产生ftz mRNA。这些观察结果支持了一个模型,其中B52缺失菌株的致死性是B52正常情况下是主要SR蛋白的组织中剪接缺陷的结果。