AMB Express | |
Derivation of pb(II)-sensing Escherichia coli cell-based biosensors from arsenic responsive genetic systems | |
Youngdae Yoon1  Yejin Lee1  Yangwon Jeon1  Guepil Jang2  | |
[1] Department of Environmental Health Science, Konkuk University, 05029, Seoul, Republic of Korea;School of Biological Sciences and Technology, Chonnam National University, 61186, Gwangju, Republic of Korea; | |
关键词: Bacterial cell-based biosensors; Lead; ArsR; Protein engineering; Heavy metals; | |
DOI : 10.1186/s13568-021-01329-y | |
来源: Springer | |
【 摘 要 】
Heavy metal-responsive operons were used for the generation of Escherichia coli cell-based biosensors. The selectivity and specificity of the biosensors were determined based on the interaction between heavy metals and regulatory proteins; thereby, the modulating target selectivity of biosensors could be achieved by changing target sensing properties of regulatory proteins. The results of this study demonstrated that Pb(II)-sensing biosensors could be generated from an arsenic-responsive genetic system, which was originally used for arsenic-sensing biosensors. The amino acids around to As(III)-binding sites of ArsR were mutated and cysteine residues were relocated to modulate the metal selectivity. In addition, genes encoding metal ion-translocating P-type ATPases, such as copA and zntA, were deleted to enhance the specificity by increasing the intercellular levels of divalent metal ions. Based on the results, channel protein deleted E. coli cells harboring a pair of recombinant genes, engineered ArsR and arsAp::egfp, showed enhanced responses upon Pb exposure and could be used to quantify the amount of Pb(II) in artificially contaminated water and plants grown in media containing Pb(II). Although we focused on generating Pb(II)-specific biosensors in this study, the proposed strategy has a great potential for the generation of diverse heavy metal-sensing biosensors and risk assessment of heavy metals in environmental samples as well as in plants.
【 授权许可】
CC BY
【 预 览 】
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