利用多拷贝酵母载体在酿酒酵母中高效组装合成减毒 SARS-CoV-2 基因组

IF 2.9 4区生物学 Q1 EDUCATION & EDUCATIONAL RESEARCH

Journal of Genetics Pub Date : 2024-01-01

Abhishek Kumar Singh, Harsh Goar, Nikita Vashist, Prakash Sinha, Anand Kumar Bachhawat

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引用次数: 0

摘要

事实证明，酿酒酵母具有强大的同源重组能力，是多片段组装大型 DNA 构建物的绝佳平台。这些组装总是使用稳定的中心粒单拷贝载体。然而，这些组装基因组的许多应用将受益于在更高拷贝数载体中的组装，以改善从酵母中提取完整基因组的下游过程。查阅文献后发现，大型多片段组装似乎尚未在多拷贝载体中尝试过。因此，我们设计了一个工具包，使人们能用相同的组装片段在单拷贝和多拷贝载体之间无缝转换。我们评估了在单拷贝和多拷贝载体系统中利用 10 个片段组装 28 kb 减毒 SARSCoV- 2 基因组（缺少 N 基因）的情况。结果表明，两种载体系统的组装效率相当。这些发现将为 S. cerevisiae 的合成生物学工具包增添新的内容，并使研究人员能够根据其下游应用利用这些载体系统中的任何一种。

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Efficient assembly of a synthetic attenuated SARS-CoV-2 genome in Saccharomyces cerevisiae using multi-copy yeast vectors.

Saccharomyces cerevisiae has been demonstrated to be an excellent platform for the multi-fragment assembly of large DNA constructs through its powerful homologous recombination ability. These assemblies have invariably used the stable centromeric single copy vectors. However, many applications of these assembled genomes would benefit from assembly in a higher copy number vector for improved downstream extraction of intact genomes from the yeast. A review of the literature revealed that large multi-fragment assemblies did not appear to have been attempted in multicopy vectors. Therefore, we devised a toolkit that would enable one to seamlessly transition with the same assembling fragments between a single copy and a multicopy vector. We evaluated the assembly of a 28 kb attenuated SARSCoV- 2 genome (lacking the N gene) from 10 fragments in both single copy and multicopy vector systems. Our results reveal that assembly was comparably efficient in the two vector systems. The findings should add to the synthetic biology toolkit of S. cerevisiae and should enable researchers to utilize any of these vector systems depending on their downstream applications.

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来源期刊

Journal of Genetics 生物-遗传学

CiteScore

3.10

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The journal retains its traditional interest in evolutionary research that is of relevance to geneticists, even if this is not explicitly genetical in nature. The journal covers all areas of genetics and evolution,including molecular genetics and molecular evolution.It publishes papers and review articles on current topics, commentaries and essayson ideas and trends in genetics and evolutionary biology, historical developments, debates and book reviews. From 2010 onwards, the journal has published a special category of papers termed ‘Online Resources’. These are brief reports on the development and the routine use of molecular markers for assessing genetic variability within and among species. Also published are reports outlining pedagogical approaches in genetics teaching.