基于 gFET 的 Blautia producta 特异性光电传感器,用于定量监测微生物群质量。

IF 8 2区 材料科学 Q1 CHEMISTRY, PHYSICAL Nanoscale Horizons Pub Date : 2024-10-18 DOI:10.1039/d4nh00281d
Hu Xing, Yiting Zhang, Runliu Li, Hans-Maximilian Ruzicka, Christopher Hain, Jakob Andersson, Anil Bozdogan, Marius Henkel, Uwe Knippschild, Roger Hasler, Christoph Kleber, Wolfgang Knoll, Ann-Kathrin Kissmann, Frank Rosenau
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引用次数: 0

摘要

目前,利用源自人类微生物组的健康相关细菌来控制或治疗疾病(包括神经退行性疾病或糖尿病)在医学中的重要性与日俱增。通过补充益生菌对微生物组进行定向和成功的工程设计需要微妙、精确,更重要的是,还需要对其成功与否进行简单、快速和方便的监测,例如在患者肠道中的监测。基于之前描述的针对人类肠道细菌 Blautia producta 进化的多克隆 SELEX 拟合物文库,我们最终分离出三种单独的拟合物,证明了它们在亲和性、特异性和稳健性方面的性能,可以可靠地标记目标细菌,并与 "污染 "对照细菌结合使用。利用 gFET 上的生物功能化分子,我们可以对每毫升中的 101-106 个细胞进行特异性量化,追溯它们在混合物中的数量,并确定 2 nM 左右的适配体 Kd 值。即使是在真实的人体粪便样本中,这些测量也是可能的。我们的研究结果表明,gFET 与 BL2、BL7 和 BL8 适合物的结合为构建相应的传感设备奠定了良好的基础,这将为开发用于益生菌疗法和微生物组工程方法的预期监测技术开辟新的途径。
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A Blautia producta specific gFET-based aptasensor for quantitative monitoring of microbiome quality.

The use of health-relevant bacteria originating from human microbiomes for the control or therapy of diseases, including neurodegenerative disorders or diabetes, is currently gaining increasing importance in medicine. Directed and successful engineering of microbiomes via probiotic supplementation requires subtle, precise as well as, more importantly, easy, fast and convenient monitoring of its success, e.g., in patients' gut. Based on a previously described polyclonal SELEX aptamer library evolved against the human gut bacterium Blautia producta, we finally isolated three individual aptamers that proved their performance concerning affinity, specificity and robustness in reliably labeling the target bacterium and in combination with "contaminating" control bacteria. Using biofunctionalization molecules on gFETs, we could specifically quantify 101-106 cells per mL, retrace their number in mixtures and determine aptamer Kd-values around 2 nM. These measurements were possible even in the context of a real human stool sample. Our results qualify gFETs in combination with BL2, BL7 and BL8 aptamers as a promising foundation for the construction of respective sensing devices, which will open new avenues towards developing an intended monitoring technique for probiotic therapy and microbiome engineering approaches.

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来源期刊
Nanoscale Horizons
Nanoscale Horizons Materials Science-General Materials Science
CiteScore
16.30
自引率
1.00%
发文量
141
期刊介绍: Nanoscale Horizons stands out as a premier journal for publishing exceptionally high-quality and innovative nanoscience and nanotechnology. The emphasis lies on original research that introduces a new concept or a novel perspective (a conceptual advance), prioritizing this over reporting technological improvements. Nevertheless, outstanding articles showcasing truly groundbreaking developments, including record-breaking performance, may also find a place in the journal. Published work must be of substantial general interest to our broad and diverse readership across the nanoscience and nanotechnology community.
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