A highly sensitive microarray system for detecting protein-protein interactions has been developed. This method was successfully applied to analyze the interactions of heme-regulated phosphodiesterase from Escherichia coli (Ec DOS). To immobilize (His)6-Tag fused Ec DOS, anti-(His)6-Tag monoclonal antibody (anti-(His)6-Tag mAb) was initially immobilized on the solid surface, and (His)6-Tag fused Ec DOS was fixed by antigen-antibody interactions. For this experiment, ProteoChip, generally suitable for antibody immobilization, was used as solid substrate. In this report, we confirm the antibody immobilization ability of ProteoChip and specific binding to the F(c) region of the antibody. Based on this finding, interdomain interactions between Ec DOS and the isolated heme-bound PAS domain were investigated on the solid surface. Ec DOS immobilized via anti-(His)6-Tag mAb maintained interactions with the PAS fragment, in contrast to directly immobilized Ec DOS in the absence of anti-(His)6-Tag mAb. Heme-redox-sensitive interactions between Ec DOS and the PAS fragment were additionally detected using anti-(His)6-Tag mAb as a mediator. Our results collectively suggest that the immobilization method using anti-Tag antibody is suitable for maintaining native protein characteristics to facilitate elucidation of their structures and functions on solid surfaces.
Since the successful completion of the Human Genome Project, increasing concern is being directed toward the polymorphic aspect of the genome and its clinical relevance. A form of single-strand DNA-conformation polymorphism analysis (SSCP) employing nondenaturing slab-gel electrophoresis (SGE) is applicable to the genetic diagnosis of bladder cancer from urine samples. To bring this technique into routine clinical practice, the use of capillary electrophoresis (CE) is naturally favorable in terms of speed and automation. However, the resolving power of SSCP, a prerequisite basis for reliability required in diagnostics, remains as a challenge for CE systems. We thus focused on this topic and conducted studies on CE instruments equipped with a single capillary or an array of multiple capillaries, using the resolution (Rs) as a quantitative scale for the resolving power. Polymer concentration and buffer are shown to be the decisive parameters. High Rs values of >2.5 are achieved for representative SNPs markers under the optimized conditions, without sacrificing such intrinsic advantages of CE over SGE as the 10-fold quicker migration time and operation that is reproducible, continuous, and automatic. The strategies presented broaden the limits of CE in both the current and related applications.
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