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真核细胞中,RNA 3’端poly(A)或oligo(A)的特异性水解被称为脱腺苷酸化(deadenylation)。脱腺苷酸化的执行者被称为脱腺苷酸酶(deadenylase)。绝大多数真核细胞中都存在多种脱腺苷酸酶,其中CCR4-NOT复合体和PAN2-PAN3复合体负责细胞中大多数mRNA的非特异性降解,PARN和PNLDC1等参与了特定子集mRNA的降解和多种非编码RNA的生物合成。作为RNA水平的重要调控者之一,脱腺苷酸酶参与了几乎所有细胞生命活动和多种重要生理和病理过程。在真核细胞中,脱腺苷酸酶的分子调控机制可能是:细胞中的大量RNA结合蛋白是RNA命运调控的中心分子,一方面根据RNA的状态或细胞需求识别特定的靶标RNA子集,另一方面招募特定脱腺苷酸酶,对特定子集RNA的3’端进行降解或修剪,从而调控RNA的最终命运。细胞中十余种脱腺苷酸酶同工酶、上千种RNA结合蛋白以及多种多样的翻译后修饰构成了复杂的动态分子调控网络,帮助细胞在生长、增殖、分化、应激、死亡等重要生命活动中精确维持RNA稳态或快速转换基因表达谱。  相似文献   

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Subcellular localization of messenger RNAs (mRNAs) to correct sites and translational activation at appropriate timings are crucial for normal progression of various biological events. However, a molecular link between the spatial regulation and temporal regulation remains unresolved. In immature zebrafish oocytes, translationally repressed cyclin B1 mRNA is localized to the animal polar cytoplasm and its temporally regulated translational activation in response to a maturation-inducing hormone is essential to promote oocyte maturation. We previously reported that the coding region of cyclin B1 mRNA is required for the spatio-temporal regulation. Here, we report that a sequence, CAGGAGACC, that is conserved in the coding region of vertebrate cyclin B1 mRNA is involved in the regulation. Like endogenous cyclin B1 mRNA, reporter mRNAs harboring the sequence CAGGAGACC were localized to the animal polar cytoplasm of oocytes, while those carrying mutations in the sequence (with no change in the coding amino acids) were dispersed in the animal hemisphere of oocytes. Furthermore, translational activation of the mutant mRNAs was initiated at a timing earlier than that of endogenous and wild-type reporter mRNAs during oocyte maturation. Interaction of CAGGAGACC with proteins in vitro suggests that this sequence functions in collaboration with a trans-acting protein factor(s) in oocytes. These findings reveal that the sequence in the coding region of cyclin B1 mRNA plays an important role as a cis-acting element in both subcellular localization and translational timing of mRNA, providing a direct molecular link between the spatial and temporal regulation of mRNA translation.  相似文献   

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The 3′ untranslated region of mRNA encoding PHAX, a phosphoprotein required for nuclear export of U-type snRNAs, contains cis-acting sequence motifs E2 and VM1 that are required for localization of RNAs to the vegetal hemisphere of Xenopus oocytes. However, we have found that PHAX mRNA is transported to the opposite, animal, hemisphere. A set of proteins that cross-link to the localization elements of vegetally localized RNAs are also cross-linked to PHAX and An1 mRNAs, demonstrating that the composition of RNP complexes that form on these localization elements is highly conserved irrespective of the final destination of the RNA. The ability of RNAs to bind this core group of proteins is correlated with localization activity. Staufen1, which binds to Vg1 and VegT mRNAs, is not associated with RNAs localized to the animal hemisphere and may determine, at least in part, the direction of RNA movement in Xenopus oocytes.  相似文献   

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Cis-acting polymorphisms that affect gene expression are now known to be frequent, although the extent and mechanisms by which such variation affects the human phenotype are, as yet, only poorly understood. Key signatures of cis-acting variation are differences in gene expression that are tightly associated with regulatory SNPs or expression Quantitative Trait Loci (eQTL) and an imbalance of allelic expression (AEI) in heterozygous samples. Such cis-acting sequence differences appear often to have been under selection within and between populations and are also thought to be important in speciation. Here we describe the example of lactase persistence. In medical research, variants that affect regulation in cis have been implicated in both monogenic and polygenic disorders, and in the metabolism of drugs. In this review we suggest that by further understanding common regulatory variations and how they interact with other genetic and environmental variables it will be possible to gain insight into important mechanisms behind complex disease, with the potential to lead to new methods of diagnosis and treatments.  相似文献   

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《Seminars in Virology》1998,8(4):291-300
Papillomaviruses comprise a large number of related small DNA tumor viruses with tropism for squamous epithelial cells. The papillomavirus replication cycle is strictly linked to the differentiation stages of the infected epithelial cells, and the expression of L1 and L2 capsid proteins from the viral late genes is primarily detected in the superficial layers of terminally differentiated cells. Expression of the L1 and L2 genes is blocked in nonterminally differentiated cells and the production of progeny virus is delayed until the infected cell reaches the upper strata of the squamous epithelium. This property presumably aids the papillomavirus to evade the immune surveillance of the host and allows establishment of persistent infections. Late gene expression levels are determined in part by regulatory RNA sequences on the papillomavirus mRNAs. This review focuses primarily on negativecis-acting elements on late papillomavirus mRNAs and their candidatetrans-acting factors. Identification and characterization of these components will contribute to our understanding of the regulated expression of papillomaviruses in mammalian cells.  相似文献   

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Current transgenic cotton varieties constitutively express transgenes encoding anti-pest proteins to protect against plant damage caused by insect attack. However, restricting the spatial expression of transgenes to the tissues in which their products are required is likely to improve crop performance and reduce environmental impacts. Therefore, we sought to identify native gene promoters that would restrict transgene expression to the boll wall of the cotton plant. Six abundant mRNAs that accumulated preferentially in the boll wall were identified, and the gene promoters of two of these mRNAs were identified, isolated and characterised. The promoters of a proline-rich protein gene (GhPRP3) and a chalcone synthase gene (GhCHS1) were demonstrated to drive boll wall-preferential expression of a reporter gene in a transient transformation system. In silico analyses of the GhPRP3 and GhCHS1 promoters identified numerous previously identified cis-acting regulatory elements (CAREs) as well as the presence of three novel shared CAREs. The identification and characterisation of these promoters provides an important step in the development of the next generation of transgenic plants.  相似文献   

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