Atsuko Uenoyama, Hana Kiyama, Mone Mimura, Makoto Miyata
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引用次数: 0
Abstract
JCVI-syn3B (syn3B), a minimal synthetic bacterium that only possesses essential genes, facilitates the examination of heterogeneous gene functions in minimal life. Conventionally, Escherichia coli is used to construct DNA fragments for gene transfer into the syn3B genome. However, the construction process is challenging and time-consuming due to various issues, including the inhibition of E. coli growth and unexpected recombination, especially with AT-rich DNA sequences such as those found in Mycoplasma genes. Therefore, in this study, we aimed to develop a new transformation method to overcome these issues. We assembled the vector and target DNA fragments using an in vitro homologous recombination system and subsequently transferred the products into the syn3B genome. We obtained approximately 5,000 recombinant colonies per milliliter of the original culture in eight days, which is four days shorter than the conventional period, without any recombination issues, even for AT-rich DNA
JCVI-syn3B(syn3B)是一种只拥有基本基因的最小合成细菌,有助于研究最小生命中的异质基因功能。传统方法是利用大肠杆菌构建 DNA 片段,将基因转移到 syn3B 基因组中。然而,由于大肠杆菌生长受到抑制和意外重组等各种问题,尤其是在富含 AT 的 DNA 序列(如支原体基因中发现的序列)中,构建过程具有挑战性且耗时较长。因此,在本研究中,我们旨在开发一种新的转化方法来克服这些问题。我们利用体外同源重组系统组装了载体和目标DNA片段,随后将产物转移到syn3B基因组中。我们在八天内获得了每毫升原始培养物约 5,000 个重组菌落,比传统方法缩短了四天,而且没有出现任何重组问题,即使是富含 AT 的 DNA
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