Simpson P C, Roach D, Woolley A T, Thorsen T, Johnston R, Sensabaugh G F, Mathies R A
Department of Chemistry, College of Chemistry, University of California, Berkeley, CA 94720, USA.
Proc Natl Acad Sci U S A. 1998 Mar 3;95(5):2256-61. doi: 10.1073/pnas.95.5.2256.
Capillary array electrophoresis (CAE) microplates that can analyze 96 samples in less than 8 min have been produced by bonding 10-cm-diameter micromachined glass wafers to form a glass sandwich structure. The microplate has 96 sample wells and 48 separation channels with an injection unit that permits the serial analysis of two different samples on each capillary. An elastomer sheet with an 8 by 12 array of holes is placed on top of the glass sandwich structure to define the sample wells. Samples are addressed with an electrode array that makes up the third layer of the assembly. Detection of all lanes with high temporal resolution was achieved by using a laser-excited confocal fluorescence scanner. To demonstrate the functionality of these microplates, electrophoretic separation and fluorescence detection of a restriction fragment marker for the diagnosis of hereditary hemochromatosis were performed. CAE microplates will facilitate all types of high-throughput genetic analysis because their high assay speed provides a throughput that is 50 to 100 times greater than that of conventional slab gels.
通过将直径为10厘米的微加工玻璃晶片粘合形成玻璃夹层结构,已制造出能够在不到8分钟内分析96个样品的毛细管阵列电泳(CAE)微孔板。该微孔板有96个样品孔和48个分离通道,带有一个进样单元,允许在每个毛细管上对两种不同样品进行串行分析。在玻璃夹层结构顶部放置一个带有8×12孔阵列的弹性体片,以确定样品孔。用构成组件第三层的电极阵列对样品进行寻址。通过使用激光激发共聚焦荧光扫描仪实现了对所有泳道的高时间分辨率检测。为了证明这些微孔板的功能,对用于遗传性血色素沉着症诊断的限制性片段标记物进行了电泳分离和荧光检测。CAE微孔板将促进所有类型的高通量基因分析,因为其高检测速度提供的通量比传统平板凝胶高50至100倍。