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不同简单逆转录病毒转录后控制元件之间的协同作用分析。

Analysis of synergy between divergent simple retrovirus posttranscriptional control elements.

作者信息

Hull Stacey, Boris-Lawrie Kathleen

机构信息

Center for Retrovirus Research, The Ohio State University, Columbus, OH 43210-1093, USA.

出版信息

Virology. 2003 Dec 5;317(1):146-54. doi: 10.1016/j.virol.2003.08.037.

DOI:10.1016/j.virol.2003.08.037
PMID:14675633
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4862584/
Abstract

Mason-Pfizer monkey virus (MPMV) and spleen necrosis virus (SNV) are simple retroviruses that encode functionally divergent cis-acting RNA elements that use cellular proteins to facilitate nuclear export and translation of unspliced viral RNA. We tested the hypothesis that a combination of MPMV constitutive transport element (CTE) and SNV or MPMV RU5 translational enhancer on unspliced HIV-1 gag-pol reporter RNA synergistically augments Gag production. Results of transient transfection assays validate the hypothesis of synergistic augmentation in COS cells, but not 293 cells. RNA targeting experiments verified comparable responsiveness to CTE-interactive proteins tethered by RRE and RevM10Tap in COS and 293 cells. Exogeneous expression of Tap and NXT1 was necessary and sufficient to rescue Gag augmentation in 293 cells. Overexpression experiments established that CTE, but not RU5, confers the responsiveness to Tap and NXT1 and that CTE in conjunction with Tap and NXT1 conferred a 30-fold increase in translational utilization of the cytoplasmic RNA. Our results uncovered a previously unidentified role of CTE in conjunction with Tap and NXT1 in commitment to efficient cytoplasmic RNA utilization.

摘要

梅森- Pfizer猴病毒(MPMV)和脾坏死病毒(SNV)是简单的逆转录病毒,它们编码功能不同的顺式作用RNA元件,这些元件利用细胞蛋白来促进未剪接病毒RNA的核输出和翻译。我们测试了以下假设:MPMV组成型转运元件(CTE)与SNV或MPMV RU5翻译增强子组合作用于未剪接的HIV-1 gag-pol报告RNA,可协同增强Gag的产生。瞬时转染试验结果证实了在COS细胞中协同增强的假设,但在293细胞中未得到证实。RNA靶向实验证实,COS细胞和293细胞对由RRE和RevM10Tap tethered的CTE相互作用蛋白具有相似的反应性。Tap和NXT1的外源表达对于挽救293细胞中的Gag增强是必要且充分的。过表达实验表明,CTE而非RU5赋予了对Tap和NXT1的反应性,并且CTE与Tap和NXT1共同作用使细胞质RNA的翻译利用率提高了30倍。我们的结果揭示了CTE与Tap和NXT1在有效利用细胞质RNA方面以前未被识别的作用。

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