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影响因子：10.257

DOI码：10.1016/j.bios.2013.03.086

发表刊物：Biosensors & bioelectronics

关键字：Antibodies, Immobilized/*chemistry/immunology Antigens/*analysis/immunology Binding Sites, Antibody Immunoassay/methods Protein Conformation Pyrimidines/*analysis/immunology Stress, Mechanical Sulfonylurea Compounds/*analysis/immunology

摘要：Generation of microcantilever bending from biochemical interactions can have wide applications, ranging from high-throughput molecular detection to bioactuation. However, the origin of the biochemically induced surface stress causing the bending is a subject of much scientific debate and interest. Unlike a compressive surface stress caused by biomacromolecule antigen and antibody binding, here we show that a small molecule antigen and antibody binding on the surface gives rise to a tensile stress. We propose that the tensile stress is induced by antibody conformational change which manifests itself as Fab arm motion that exposes the C1q binding site of the antibody due to antigen binding. A microcantilever immunosensor was developed for the detection of Chlorimuron-ethyl (CE). We found that antibodies with oriented immobilization induce a greater resultant surface stress than those with random immobilization. The length of linker between the surface and the antibody plays an important role on the stress transmission. The shorter the length, the greater the surface stress. These mechanism and principles will underpin the design of devices and coatings to significantly lower the small molecule detection limit and may also have an impact on our understanding of antigen and antibody b

第一作者：吴尚犬

论文类型：期刊论文

通讯作者：张青川

论文编号：000321085600012

卷号：48

页面范围：67-74

ISSN号：0956-5663

是否译文：否

发表时间：2013-10-15

收录刊物：SCI

发布期刊链接：https://www.sciencedirect.com/science/article/pii/S0956566313002765