Department of Chemistry and Biochemistry, University of Arizona, Tucson, AZ, USA.
Electrophoresis. 2012 Sep;33(18):2903-10. doi: 10.1002/elps.201200279. Epub 2012 Aug 22.
Photolytic optical gating (POG) facilitates rapid, on-line and highly sensitive analyses, though POG utilizes UV lasers for sample injection. We present a low-cost, more portable alternative, employing an ultraviolet light-emitting diode (UV-LED) array to inject caged fluorescent dyes via photolysis. Utilizing the UV-LED array, labeled amino acids were injected with nanomolar limits of detection (270 ± 30 nM and 250 ± 30 nM for arginine and citrulline, respectively). When normalized for the difference in light intensity, the UV-LED array provides comparable sensitivity to POG utilizing UV lasers. Additionally, the UV-LED array yielded sufficient beam quality and stability to facilitate coupling with a Hadamard transform, resulting in increased sensitivity. This work shows, for the first time, the use of an UV-LED for online POG with comparable sensitivity to conventional laser sources but at a lower cost.
光解光闸(POG)可实现快速、在线和高灵敏度分析,但 POG 需要使用紫外激光器进行样品注入。我们提出了一种低成本、更便携的替代方案,采用紫外发光二极管(UV-LED)阵列通过光解来注入笼状荧光染料。利用 UV-LED 阵列,我们以纳摩尔级别的检测限(精氨酸和瓜氨酸的检测限分别为 270 ± 30 nM 和 250 ± 30 nM)对标记的氨基酸进行了注射。当按光强度的差异进行归一化时,UV-LED 阵列提供的灵敏度与利用紫外激光的 POG 相当。此外,UV-LED 阵列产生了足够的光束质量和稳定性,可与 Hadamard 变换耦合,从而提高了灵敏度。这项工作首次展示了使用 UV-LED 进行在线 POG 的方法,其灵敏度与传统激光源相当,但成本更低。