利用内源性必需基因标记在大肠杆菌中进行质粒选择。

Plasmid selection in Escherichia coli using an endogenous essential gene marker.

作者信息

Goh Shan, Good Liam

机构信息

Department of Cell and Molecular Biology, Karolinska Institute, Stockholm, SE-17177, Sweden.

出版信息

BMC Biotechnol. 2008 Aug 11;8:61. doi: 10.1186/1472-6750-8-61.

DOI:10.1186/1472-6750-8-61

PMID:18694482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2527308/

Abstract

BACKGROUND

Antibiotic resistance genes are widely used for selection of recombinant bacteria, but their use risks contributing to the spread of antibiotic resistance. In particular, the practice is inappropriate for some intrinsically resistant bacteria and in vaccine production, and costly for industrial scale production. Non-antibiotic systems are available, but require mutant host strains, defined media or expensive reagents. An unexplored concept is over-expression of a host essential gene to enable selection in the presence of a chemical inhibitor of the gene product. To test this idea in E. coli, we used the growth essential target gene fabI as the plasmid-borne marker and the biocide triclosan as the selective agent.

RESULTS

The new cloning vector, pFab, enabled selection by triclosan at 1 microM. Interestingly, pFab out-performed the parent pUC19-ampicillin system in cell growth, plasmid stability and plasmid yield. Also, pFab was toxic to host cells in a way that was reversed by triclosan. Therefore, pFab and triclosan are toxic when used alone but in combination they enhance growth and plasmid production through a gene-inhibitor interaction.

CONCLUSION

The fabI-triclosan model system provides an alternative plasmid selection method based on essential gene over-expression, without the use of antibiotic-resistance genes and conventional antibiotics.

摘要

背景

抗生素抗性基因被广泛用于重组细菌的筛选，但使用它们存在导致抗生素抗性传播的风险。特别是，这种做法对于一些固有抗性细菌和疫苗生产来说并不合适，而且对于工业规模生产而言成本高昂。非抗生素系统是可用的，但需要突变宿主菌株、特定培养基或昂贵的试剂。一个尚未探索的概念是过表达宿主必需基因，以便在存在该基因产物的化学抑制剂的情况下进行筛选。为了在大肠杆菌中验证这一想法，我们使用生长必需靶基因fabI作为质粒携带的标记，并使用杀菌剂三氯生作为选择剂。

结果

新的克隆载体pFab能够在1微摩尔的三氯生浓度下进行筛选。有趣的是，在细胞生长、质粒稳定性和质粒产量方面，pFab优于亲本pUC19 - 氨苄青霉素系统。此外，pFab对宿主细胞有毒性，而三氯生可以逆转这种毒性。因此，单独使用时pFab和三氯生是有毒的，但它们组合使用时通过基因 - 抑制剂相互作用增强生长和质粒产生。

结论

fabI - 三氯生模型系统提供了一种基于必需基因过表达的替代质粒筛选方法，无需使用抗生素抗性基因和传统抗生素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f131/2527308/236540f7bd84/1472-6750-8-61-1.jpg

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利用内源性必需基因标记在大肠杆菌中进行质粒选择。

Plasmid selection in Escherichia coli using an endogenous essential gene marker.

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出版信息

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