A Synthetic Genetic Circuit Enables Precise Quantification of Direct Repeat Deletion in Bacteria

泰特 大肠杆菌 生物 荧光 突变体 DNA 分子生物学 遗传学 生物物理学 基因 物理 抑制因子 量子力学 转录因子
作者
Yajia Huang,Shuai Yang,Wenhui Chen,Feixuan Li,Aiguo Xia,Lei Ni,Guang Yang,Fan Jin
出处
期刊:ACS Synthetic Biology [American Chemical Society]
卷期号:9 (5): 1041-1050 被引量:1
标识
DOI:10.1021/acssynbio.9b00256
摘要

Quantification of the rate of direct repeat deletion (DRD) is an important aspect in the research of DNA rearrangement. The widely used tetracycline selection method usually introduces antibiotic pressure to the tested organism, which may interfere with the DRD process. Also the length of repeat arm (LRA) is limited by the length of the TetR coding sequence. On the basis of the fluorescent microscopy and high-throughput imaging processing, here we developed a two-module genetic circuit, termed TFDEC (which stands for three-color fluorescence-based deletion event counter), to quantify the DRD rate under neutral conditions. DRD events were determined from the state of a three-state fluorescent logic gate constructed through coupling of an OR gate and an AND gate. TFDEC was applied in Pseudomonas aeruginosa, and we found that the DRD rate was RecA-dependent for long repeat arms (>500 bp) and RecA-independent for short repeat arms (<500 bp), which was consistent with the case in Escherichia coli. In addition, the increase of DRD rate followed an S-shaped curve with the increase of LRA, while treating cells with ciprofloxacin did not change the LRA-dependence of DRD. We also detected a significant increased DRD rate for long repeat arms in the uvrD (8-fold) and radA (4-fold) mutants. Our results show that the TFDEC method could be used as a complement tool for quantification of the DRD rate in the future.

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