Fels Institute for Cancer Research and Molecular Biology, Information Science and Technology Center, Temple University, Philadelphia, PA 19140, USA.
Am J Physiol Cell Physiol. 2010 Oct;299(4):C818-27. doi: 10.1152/ajpcell.00166.2010. Epub 2010 Jun 23.
Mechanisms providing for temporally complex patterns of maternal mRNA translation after fertilization are poorly understood. We employed bioinformatics analysis to compare populations of mRNAs enriched specifically on polysomes at the metaphase II (MII) stage oocyte and late one-cell stages and a detailed deletion/truncation series to identify elements that regulate translation. We used the Bag4 3' untranslated region (UTR) as a model. Bioinformatics analysis revealed one conserved motif, subsequently confirmed by functional studies to be a key translation repressor element. The deletion/truncation studies revealed additional regulatory motifs, most notably a strong translation activator element of <30 nt. Analysis of mRNA secondary structure suggests that secondary structure plays a key role in translation repression. Additional bioinformatics analysis of the regulated mRNA population revealed a diverse collection of regulatory motifs found in small numbers of mRNAs, highlighting a high degree of sequence diversity and combinatorial complexity in the overall control of the maternal mRNA population. We conclude that translational control after fertilization is driven primarily by negative regulatory mechanisms opposing strong translational activators, with stage-specific release of the inhibitory influences to permit recruitment. The combination of bioinformatics analysis and deletion/truncation studies provides the necessary approach for dissecting postfertilization translation regulatory mechanisms.
受精后提供母体 mRNA 翻译时间复杂模式的机制还了解甚少。我们采用生物信息学分析比较了在中期 II (MII)卵母细胞和晚期单细胞阶段特异性富集在多核糖体上的 mRNA 群体,并进行了详细的缺失/截断系列分析,以鉴定调节翻译的元件。我们使用 Bag4 3'非翻译区(UTR)作为模型。生物信息学分析揭示了一个保守的基序,随后通过功能研究证实这是一个关键的翻译抑制元件。缺失/截断研究揭示了其他调节基序,特别是一个小于 30 个核苷酸的强翻译激活元件。对 mRNA 二级结构的分析表明,二级结构在翻译抑制中起关键作用。受调控 mRNA 群体的进一步生物信息学分析揭示了在少数 mRNA 中发现的多种调节基序,突出了母体 mRNA 群体整体控制中序列多样性和组合复杂性的高度。我们得出结论,受精后翻译的控制主要由与强翻译激活物相反的负调节机制驱动,随着抑制影响的阶段特异性释放,允许招募。生物信息学分析和缺失/截断研究的结合为剖析受精后翻译调控机制提供了必要的方法。