BackgroundDetecting ligand-receptor binding on cell membrane surfaces is required to understand their function and behavior. Detection platforms can also provide an avenue for the development of medical devices and sensor biotechnology. The use of fluorescence techniques for such purposes is highly desirable as they provide high sensitivity. Herein, we describe a technique that utilizes the sensitivity of fluorescence without directly tagging the analyte of interest to monitor ligand-receptor interactions on supported lipid bilayers. The fluorescence signal is modulated according to the charge state of the target analyte. The binding event elicits protonation or deprotonation of pH-responsive reporter dyes embedded in the lipid bilayer.MethodsSupported lipid membranes containing ortho-conjugated rhodamine B-POPE (1-hexadecanoyl-2-(9Z-octadecenoyl)-sn-glycero-3-phosphoethanolamine), which fluoresces in its protonated but not in its deprotonated form, were utilized as sensor platforms for biotin-avidin and biotin-streptavidin binding events. The membranes contained 5 mol% biotin-PE (1,2-dipalmitoyl-sn-glycero-3-phosphoethanolamine-N-(cap biotinyl) (sodium salt) as a capture ligand. Supported lipid bilayers were formed in the channels of microfluidic devices and the fluorescence intensity of the dye was monitored as protein was introduced.ResultsThe binding of avidin, which is positively charged at pH 7.2, made the bilayer surface charge more positive, which in turn deprotonated the ortho-rhodamine B dye, reducing its fluorescence. The binding of streptavidin, which is negatively charged at pH 7.2, had the opposite effect. Reducing the ionic strength of the analyte solution by removing 150 mM NaCl from the 10 mM phosphate buffered saline (PBS) solution raised the apparent pKa of the ortho-rhodamine B titration point by about 1 pH unit. This could be exploited in conjunction with bulk solution pH changes to turn the rhodamine B-POPE dye into a sensor for streptavidin involving a decrease, rather than an increase, in the fluorescence response, at pH values below streptavidin’s pI value.ConclusionsThis study demonstrates the ability to monitor ligand-receptor interactions on supported lipid bilayers through the protonation or deprotonation of reporter dyes for both negatively and positively charged analytes over a range of pH and ionic strength conditions. Specifically, the sensitivity and pH-operating range of this technique can be optimized by modulating the sensing conditions which are employed.
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机译:背景技术检测细胞膜表面上的配体-受体结合是了解它们的功能和行为所必需的。检测平台还可以为医疗设备和传感器生物技术的发展提供一条途径。出于这种目的,非常需要使用荧光技术,因为它们提供了高灵敏度。在本文中,我们描述了一种利用荧光的敏感性而无需直接标记目标分析物来监测支持的脂质双层上的配体-受体相互作用的技术。荧光信号根据目标分析物的电荷状态进行调制。结合事件引起脂质双层中嵌入的pH响应性报告染料的质子化或去质子化。方法含有邻共轭罗丹明B-POPE(1-十六烷酰基-2-(9Z-十八烯酰基)-sn-甘油-3-磷酸乙醇胺)的脂质膜)(以质子化但不以去质子化的形式发荧光)用作生物素-亲和素和生物素-链霉亲和素结合事件的传感器平台。膜中含有5 mol%的生物素-PE(1,2-二棕榈酰-sn-甘油-3-磷酸乙醇胺-N-(帽生物素)(钠盐)作为捕获配体)在微流体装置的通道中形成了支持的脂质双层。结果在pH 7.2时带正电的抗生物素蛋白的结合使双层表面电荷更带正电,从而使原若丹明B染料去质子化,从而降低了其荧光强度。在pH 7.2处带负电荷的链霉亲和素的结合作用相反,通过从10 mM磷酸盐缓冲盐水(PBS)溶液中去除150 mM NaCl降低分析物溶液的离子强度,可提高邻位蛋白的表观pKa。罗丹明B滴定点大约为1个pH单位,可以与溶液pH的变化结合起来使用,从而将罗丹明B-POPE染料转变为链霉亲和素的传感器,从而导致氟的降低而不是增加在低于链霉亲和素pI值的pH值下,具有发光响应。结论本研究证明了在一定范围的pH和离子强度条件下,通过带负电荷或带正电荷的分析物的报告染料的质子化或去质子化,可以监测负载的脂质双层上配体-受体相互作用的能力。 。具体地,可以通过调节所采用的感测条件来优化该技术的灵敏度和pH操作范围。
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