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引用次数: 0
摘要
使用磁性颗粒的磁性分离技术是一种快速简便的方法,可灵敏可靠地捕获特定蛋白质、遗传物质和其他生物分子。与其他方法相比,该技术的优势在于分析物承受的机械应力很小。其次,这些方法不费力、廉价,通常还具有很高的可扩展性。此外,采用磁性的技术更易于实现自动化和微型化。现在,人类基因组已完成测序,约 30,000 个基因已被注释,下一步是确定这些单个基因的功能,开展等位基因变异的基因分型研究和 SNP 分析,最终确定新的药物靶点。在这个后基因组时代,基于磁分离的技术正成为当今生物学实验室不可或缺的一部分。本文简要回顾了磁分离技术在生物技术、生物医学和药物发现领域的部分应用。
Application of magnetic techniques in the field of drug discovery and biomedicine.
Magnetic separation technology, using magnetic particles, is quick and easy method for sensitive and reliable capture of specific proteins, genetic material and other biomolecules. The technique offers an advantage in terms of subjecting the analyte to very little mechanical stress compared to other methods. Secondly, these methods are non-laborious, cheap and often highly scalable. Moreover, techniques employing magnetism are more amenable to automation and miniaturization. Now that the human genome is sequenced and about 30,000 genes are annotated, the next step is to identify the function of these individual genes, carrying out genotyping studies for allelic variation and SNP analysis, ultimately leading to identification of novel drug targets. In this post-genomic era, technologies based on magnetic separation are becoming an integral part of todays biology laboratory. This article briefly reviews the selected applications of magnetic separation techniques in the field of biotechnology, biomedicine and drug discovery.
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