BioBrick-based 'Quick Gene Assembly' in vitro.

IF 2.6 Q2 BIOCHEMICAL RESEARCH METHODS Synthetic biology (Oxford, England) Pub Date : 2017-06-14 eCollection Date: 2017-01-01 DOI:10.1093/synbio/ysx003

Ken-Ichi Yamazaki, Kim de Mora, Kensuke Saitoh

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引用次数: 8

Abstract

Because of the technological limitations of de novo DNA synthesis in (i) making constructs containing tandemly repeated DNA sequence units, (ii) making an unbiased DNA library containing DNA fragments with sequence multiplicity in a specific region of target genes, and (iii) replacing DNA fragments, development of efficient and reliable biochemical gene assembly methods is still anticipated. We succeeded in developing a biological standardized genetic parts that are flanked between a common upstream and downstream nucleotide sequences in an appropriate plasmid DNA vector (BioBrick)-based novel assembly method that can be used to assemble genes composed of 25 tandemly repeated BioBricks in the correct format in vitro. We named our new DNA part assembly system: 'Quick Gene Assembly (QGA)'. The time required for finishing a sequential fusion of five BioBricks is less than 24 h. We believe that the QGA method could be one of the best methods for 'gene construction based on engineering principles' at the present time, and is also a method suitable for automation in the near future.

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基于生物砖的体外“快速基因组装”。

由于新DNA合成的技术限制(i)制造含有串联重复DNA序列单元的构建物，(ii)在目标基因的特定区域制造含有序列多样性的DNA片段的无偏DNA文库，以及(iii)替换DNA片段，仍然期待开发高效可靠的生化基因组装方法。我们成功地开发了一种基于合适质粒DNA载体(BioBrick)的新型组装方法，该方法位于共同的上游和下游核苷酸序列之间，可用于在体外以正确的格式组装由25个串联重复的BioBrick组成的基因。我们将这种新的DNA组装系统命名为“快速基因组装(QGA)”。完成五个BioBricks的连续融合所需的时间少于24小时。我们认为，QGA方法可能是目前“基于工程原理的基因构建”的最佳方法之一，也是一种在不久的将来适合自动化的方法。

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Synthetic biology (Oxford, England)

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