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J Hazard Mater. 2024 Jan 5;461:132527. doi: 10.1016/j.jhazmat.2023.132527. Epub 2023 Sep 11.
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Staph wars: the antibiotic pipeline strikes back.葡萄球菌之战:抗生素管道奋起反击。
Microbiology (Reading). 2023 Sep;169(9). doi: 10.1099/mic.0.001387.
3
Nanotechnology-A Light of Hope for Combating Antibiotic Resistance.纳米技术——对抗抗生素耐药性的希望之光。
Microorganisms. 2023 Jun 3;11(6):1489. doi: 10.3390/microorganisms11061489.
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Polyamine as a microenvironment factor in resistance to antibiotics.多胺作为抗生素耐药性的微环境因素。
Crit Rev Microbiol. 2024 Aug;50(4):504-513. doi: 10.1080/1040841X.2023.2223277. Epub 2023 Jun 20.
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A critical review of novel antibiotic resistance prevention approaches with a focus on postbiotics.新型抗生素耐药性预防方法的批判性评价,重点关注后生素。
Crit Rev Food Sci Nutr. 2024 Sep;64(26):9637-9655. doi: 10.1080/10408398.2023.2214818. Epub 2023 May 19.
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Recent Advances in Strategies to Combat Bacterial Drug Resistance: Antimicrobial Materials and Drug Delivery Systems.对抗细菌耐药性的策略新进展:抗菌材料与药物递送系统
Pharmaceutics. 2023 Apr 7;15(4):1188. doi: 10.3390/pharmaceutics15041188.
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Construction of light-sensing two-component systems in Escherichia coli.在大肠杆菌中构建光感应双组分系统。
Sci Bull (Beijing). 2017 Jun 30;62(12):813-815. doi: 10.1016/j.scib.2017.05.018. Epub 2017 May 17.
8
Development of Whole-Cell Biosensors for Screening of Peptidoglycan-Targeting Antibiotics in a Gram-Negative Bacterium.用于革兰氏阴性菌中肽聚糖靶向抗生素筛选的全细胞生物传感器的开发。
Appl Environ Microbiol. 2022 Sep 22;88(18):e0084622. doi: 10.1128/aem.00846-22. Epub 2022 Aug 30.
9
The role of vaccines in combating antimicrobial resistance (AMR) bacteria.疫苗在对抗抗菌药物耐药性(AMR)细菌方面的作用。
Saudi J Biol Sci. 2021 Dec;28(12):7505-7510. doi: 10.1016/j.sjbs.2021.08.054. Epub 2021 Aug 24.
10
Programmable receptors enable bacterial biosensors to detect pathological biomarkers in clinical samples.可编程受体使细菌生物传感器能够检测临床样本中的病理生物标志物。
Nat Commun. 2021 Sep 1;12(1):5216. doi: 10.1038/s41467-021-25538-y.

利用合成生物学方法构建用于增强环境抗生素检测的全细胞生物传感器

Engineering Whole-Cell Biosensors for Enhanced Detection of Environmental Antibiotics Using a Synthetic Biology Approach.

作者信息

Priyadharshini Arunagiri, Ganesh Irisappan, Rangarajalu Kumar, Samuel Melissa Shaelyn, Ravikumar Sambandam

机构信息

Department of Biochemistry, Aarupadai Veedu Medical College and Hospital, Vinayaka Mission's Research Foundation (Deemed to be University), Kirumampakkam, Puducherry 607403 India.

Department of Medical Biotechnology, Aarupadai Veedu Medical College and Hospital, Vinayaka Mission's Research Foundation (Deemed to be University), Kirumampakkam, Puducherry 607403 India.

出版信息

Indian J Microbiol. 2024 Jun;64(2):402-408. doi: 10.1007/s12088-024-01259-w. Epub 2024 Mar 23.

DOI:10.1007/s12088-024-01259-w
PMID:39010990
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11246489/
Abstract

Bacterial Two component systems have evolved with many intricate sensory apparatuses for external stimuli like light, temperature, oxygen, pH and chemical compounds. Recent studies have shown the potential of two-component regulatory systems (TCSs) of bacteria in creating synthetic regulatory circuits for several applications. Antimicrobial resistance is increasing globally in both developing and developed countries and it is one of the foremost global threats to public health. The resistance level to a broad spectrum of antibiotics is rising every year by 5-10%. In this context, TCSs controlling microbial physiology at the transcriptional level could be an appropriate candidate for monitoring the antibiotics present in the environment. This review provided a wide opportunity to gain knowledge about the TCSs available in diverse species to sense the antibiotics. Further, this review explored the EMeRALD (Engineered Modularized Receptors Activated via Ligand-induced Dimerization) based biosensors to repurpose the sensing modules from the microbial TCSs using the synthetic biology approach.

摘要

细菌双组分系统已经进化出许多复杂的传感装置,用于感知光、温度、氧气、pH值和化合物等外部刺激。最近的研究表明,细菌的双组分调节系统(TCSs)在创建用于多种应用的合成调节回路方面具有潜力。在发展中国家和发达国家,抗微生物药物耐药性在全球范围内都在增加,这是对公共卫生的首要全球威胁之一。对广谱抗生素的耐药水平每年以5%至10%的速度上升。在这种背景下,在转录水平控制微生物生理学的TCSs可能是监测环境中存在的抗生素的合适候选者。这篇综述提供了一个广泛的机会,来了解不同物种中可用于感知抗生素的TCSs。此外,本综述探讨了基于EMERALD(通过配体诱导二聚化激活的工程模块化受体)的生物传感器,以利用合成生物学方法将微生物TCSs的传感模块重新用于其他目的。