Identification of the 4‐hydroxyphenylacetate transport gene of Escherichia coli W : construction of a highly sensitive cellular biosensor

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Identification of the 4‐hydroxyphenylacetate transport gene of Escherichia coli W : construction of a highly sensitive cellular biosensor

机译：鉴定大肠杆菌W的4-羟基苯乙酸酯转运基因：高灵敏度细胞生物传感器的构建

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>The mechanism of uptake of 4-hydroxyphenylacetate (4-HPA) by Escherichia coli W. was investigated. The 4-HPA uptake was induced by 4-HPA, 3-hydroxyphenylacetate (3-HPA) or phenylacetate (PA) and showed saturation kinetics with apparent K _t and V _max values of 25 μM and 3 nmol/min per 109 cells, respectively. Transport of 4-HPA was resistant to N,N″-dimethylcarbodiimide (DCCD), but was completely inhibited by cyanide and 4-nitrophenol, and, to a lower extent, by arsenate and azide, suggesting that energy is required for the uptake process. Competition studies showed that 4-HPA uptake was inhibited by 3-HPA or 3,4-dihydroxyphenylacetate (3,4-DHPA) but not by 2-hydroxyphenylacetate (2-HPA), class="smallCaps">l-tyrosine or other structural analogues, indicating a narrow specificity of the transport system. We have demonstrated, using two experimental approaches, that the hpaX gene of the 4-HPA catabolic cluster, which encodes a protein of the superfamily of transmembrane facilitators, is responsible for 4-HPA transport. Aside from the aromatic amino acid transport systems, hpaX is the first transport gene for an aromatic compound of enteric bacteria that has been characterized. A highly sensitive cellular biosensor has been constructed by coupling the 4-HPA transport system to a regulatory circuit that controls the production of β-galactosidase. This biosensor has allowed us to demonstrate that the transport system performs efficiently at very low external concentrations of 4-HPA, similar to levels that would be expected to occur in natural environments.

机译：>研究了大肠杆菌（E.scherichia coli）摄取四羟苯乙酸（4-HPA）的机理。 4-HPA的吸收是由4-HPA，3-羟基苯乙酸（3-HPA）或苯乙酸（PA）诱导的，并且表现出饱和动力学，且具有明显的 K _{t 和个细胞的> V _{max 值分别为25μM和3 nmol / min。 4-HPA的转运对 N，N ''-二甲基碳二亚胺（DCCD）具有抗性，但被氰化物和4-硝基苯酚以及在较低程度上被砷酸盐和叠氮化物完全抑制。吸收过程需要能量。竞争研究表明，3-HPA或3,4-二羟基苯乙酸（3,4-DHPA）抑制了4-HPA的摄取，但2-羟基苯乙酸（2-HPA）却没有抑制4-HPA的吸收， class =“ smallCaps”> l -酪氨酸或其他结构类似物，表明运输系统的狭窄特异性。我们已经使用两种实验方法证明了4-HPA分解代谢簇的 hpaX 基因，它编码跨膜促进子超家族的蛋白质，负责4-HPA的运输。除芳香族氨基酸转运系统外， hpaX 是第一个已表征的肠细菌芳香化合物的转运基因。通过将4-HPA转运系统与控制β-半乳糖苷酶产生的调节电路偶联，可以构建高度敏感的细胞生物传感器。这种生物传感器使我们能够证明运输系统在极低的4-HPA外部浓度下可以有效运行，这与在自然环境中可能发生的水平相似。}} 展开▼

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《FEBS Letters》 |1997年第2期|共页

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1. Identification of the 4‐hydroxyphenylacetate transport gene of Escherichia coli W : construction of a highly sensitive cellular biosensor [J] . FEBS Letters . 1997,第2期

机译：鉴定大肠杆菌W的4-羟基苯乙酸酯转运基因：高灵敏度细胞生物传感器的构建

2. Identification of gcpE as a novel gene of the 2‐C‐methyl‐D‐erythritol 4‐phosphate pathway for isoprenoid biosynthesis in Escherichia coli [J] . Boronat Albert, Campos Narciso, Rodr#x131, FEBS Letters . 2001,第3期

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3. Highly sensitive microbial biosensor based on recombinant Escherichia coli overexpressing catechol 2,3-dioxygenase for reliable detection of catechol [J] . Liu Zhuang, Zhang Yachao, Bian Congcong, Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2019,第期

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5. Sensitive Biosensor for Rapid Detection of Escherichia coli in Produce Wash Water [D] . ?Tilton, Lianna 2019

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6. Facile construction of a highly sensitive DNA biosensor by in-situ assembly of electro-active tags on hairpin-structured probe fragment [O] . Qingxiang Wang, Feng Gao, Jiancong Ni, -1

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7. Identification of the 4-hydroxyphenylacetate transport gene of Escherichia coli W : construction of a highly sensitive cellular biosensor [O] . Prieto María A., García JoséL. 1997

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Identification of the 4‐hydroxyphenylacetate transport gene of Escherichia coli W : construction of a highly sensitive cellular biosensor

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