研究设计哺乳动物细胞基因线路 通过基因工程使细胞执行可定制的功能是一个新兴的生物技术前沿，可以进行许多技术和转化应用。然而，在哺乳动物细胞中进行可预测的基因线路设计仍然是一个较大的挑战。 2021年2月19日Science Advances报道，美国西北大学的Josh Leonard团队通过利用高性能的转录和翻译后调控元件和计算模型，开发了一种在哺乳动物细胞中实现可预测基因线路设计的方法。 研究小组使用实验室开发的遗传部件的“工具包”，利用计算模型来识别有用的基因设计，然后再在实验室中进行构建，研究人员设计并测试了几十个遗传电路。结果显示，每个基因程序按预期工作，多种基因程序的组合能够在人类细胞中实现所需的有用功能。研究者成功地在哺乳动物细胞中构建整合转录和翻译后控制的多功能蛋白质，描述这些机制的经过验证的模型，实现了数字和模拟处理，以及有效地将遗传电路与传感器连接在一起进行多输入评估。该研究团队利用该设计框架实现了多种功能，包括数字和模拟信息处理，感知-响应电路等。该研究有助于启发生物工程师利用合成生物学在哺乳动物细胞中定制遗传程序，有望开发利用活细胞和合成生物学的新疗法来应对癌症等疑难疾病。   吴晓燕 孙裕彤 编译自https://www.republicworld.com/technology-news/science/cancer-can-now-be-treated-using-living-cells-and-synthetic-biology-researchers-find.html 原文链接：https://advances.sciencemag.org/content/7/8/eabe9375 原文标题：Model-guided design of mammalian genetic programs

Abstract. The Rev protein of human immunodeficiency virus type 1 (HIV-1) facilitates the nuclear export of unspliced and partially spliced viral RNAs. In the absence of Rev, these intron-containing HIV-1 RNAs are retained in the nucleus. The basis for nuclear retention is unclear and is an important aspect of Rev regulation. Here we use in situ hybridization and digital imaging microscopy to examine the intranuclear distributions of intron-containing HIV RNAs and to determine their spatial relationships to intranuclear structures. HeLa cells were transfected with an HIV-1 expression vector, and viral transcripts were localized using oligonucleotide probes specific for the unspliced or spliced forms of a particular viral RNA. In the absence of Rev, the unspliced viral RNAs were predominantly nuclear and had two distinct distributions. First, a population of viral transcripts was distributed as ~10-20 intranuclear unctate signals. Actinomycin D chase experiments indicate that these signals represent nascent transcripts. A second, stable population of viral transcripts was dispersed throughout the nucleoplasm excluding nucleoli. Rev promoted the export of this stable population of viral RNAs to the cytoplasm in a time-dependent fashion. Significantly, the distributions of neither the nascent nor the stable populations of viral RNAs coincided with intranuclear speckles in which splicing factors are enriched. Using splice-junction-specific probes, splicing of human 13-globin pre-mRNA occurred cotranscriptionally, whereas splicing of HIV-1 pre-mRNA did not. Taken together, our results indicate that the nucleolus and intranuclear speckles are not involved in Rev regulation, and provide further evidence that efficient splicing signals are critical for cotranscriptional splicing.