Otero L J, Devaux A, Standart N
Department of Biochemistry, University of Cambridge, United Kingdom.
RNA. 2001 Dec;7(12):1753-67.
Xenopus laevis Vgl mRNA undergoes both localization and translational control during oogenesis. Vg1 protein does not appear until late stage IV, after localization is complete. To determine whether Vg1 translation is regulated by cytoplasmic polyadenylation, the RACE-PAT method was used. Vg1 mRNA has a constant poly(A) tail throughout oogenesis, precluding a role for cytoplasmic polyadenylation. To identify cis-acting elements involved in Vg1 translational control, the Vg1 3' UTR was inserted downstream of the luciferase ORF and in vitro transcribed, adenylated mRNA injected into stage III or stage VI oocytes. The Vg1 3' UTR repressed luciferase translation in both stages. Deletion analysis of the Vg1 3' UTR revealed that a 250-nt UA-rich fragment, the Vg1 translational element or VTE, which lies 118 nt downstream of the Vg1 localization element, could repress translation as well as the full-length Vg1 3' UTR. Poly(A)-dependent translation is not necessary for repression as nonadenylated mRNAs are also repressed, but cap-dependent translation is required as introduction of the classical swine fever virus IRES upstream of the luciferase coding region prevents repression by the VTE. Repression by the Vg1 3' UTR has been reproduced in Xenopus oocyte in vitro translation extracts, which show a 10-25-fold synergy between the cap and poly(A) tail. A number of proteins UV crosslink to the VTE including FRGY2 and proteins of 36, 42, 45, and 60 kDa. The abundance of p42, p45, and p60 is strikingly higher in stages I-III than in later stages, consistent with a possible role for these proteins in Vg1 translational control.
非洲爪蟾的Vgl信使核糖核酸(mRNA)在卵子发生过程中经历定位和翻译控制。Vg1蛋白直到IV期末才出现,此时定位已完成。为了确定Vg1翻译是否受细胞质聚腺苷酸化调控,采用了RACE-PAT方法。Vg1 mRNA在整个卵子发生过程中具有恒定的聚腺苷酸尾,排除了细胞质聚腺苷酸化的作用。为了鉴定参与Vg1翻译控制的顺式作用元件,将Vg1 3'非翻译区(UTR)插入荧光素酶开放阅读框下游,并进行体外转录,将腺苷酸化的mRNA注射到III期或VI期卵母细胞中。Vg1 3'UTR在两个阶段均抑制荧光素酶翻译。对Vg1 3'UTR的缺失分析表明,一个250个核苷酸富含UA的片段,即Vg1翻译元件或VTE,位于Vg1定位元件下游118个核苷酸处,能够像全长Vg1 3'UTR一样抑制翻译。由于非腺苷酸化的mRNA也受到抑制,所以聚腺苷酸依赖性翻译对于抑制不是必需的,但帽依赖性翻译是必需的,因为在荧光素酶编码区上游引入经典猪瘟病毒内部核糖体进入位点(IRES)可阻止VTE的抑制作用。Vg1 3'UTR的抑制作用已在非洲爪蟾卵母细胞体外翻译提取物中重现,该提取物显示帽和聚腺苷酸尾之间具有10至25倍的协同作用。许多蛋白质通过紫外线交联到VTE上,包括FRGY2以及36、42、45和60 kDa的蛋白质。p42、p45和p60在I-III期的丰度明显高于后期阶段,这与这些蛋白质在Vg1翻译控制中的可能作用一致。