High performance RNA separation by in-capillary denaturing gel electrophoresis with carboxylic acid as RNA denaturant

Keiko Sumitomo, Y. Yamaguchi
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引用次数: 1

Abstract

For RNA size separation in a small sample volume (<10 nL), a strong denaturant to cleave the intramolecular hydrogen bonds that maintain the high-order structures of RNA and optimization for a small sample volume are required. We suggested, “in-capillary denaturing gel electrophoresis” as the RNA separation based on capillary gel electrophoresis, that realizes the denaturation and separation simultaneously in a capillary tube. We found that carboxylic acids were strong denaturants for in-capillary denaturing gel electrophoresis, and the performance of RNA separation was dramatically improved with a running buffer containing acetic acid. Based on the decrease of DNA melting temperature, we estimated that the denaturing ability of 2.0 M acetic acid was stronger than that of either 2.5 M formaldehyde or 7.0 M urea. The baseline separation of RNA with a size of 100−10,000 nt was achieved in only 25 min by in-capillary denaturing gel electrophoresis containing 2.0 M acetic acid. The resolution and number of plates of RNA separation were higher and larger than those obtained in a conventional capillary gel electrophoresis with sample preparation with 7.0 M urea.
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以羧酸为RNA变性剂的毛细管内变性凝胶电泳高效分离RNA
对于小样本量(<10 nL)的RNA大小分离,需要一种强变性剂来切割维持RNA高阶结构的分子内氢键,并对小样本量进行优化。我们建议将“毛细管内变性凝胶电泳”作为基于毛细管凝胶电泳的RNA分离方法,在毛细管内同时实现变性和分离。我们发现羧酸是毛细管内变性凝胶电泳的强变性剂,并且含有乙酸的运行缓冲液显著提高了RNA分离的性能。根据DNA熔融温度的降低,我们估计2.0 M乙酸的变性能力比2.5 M甲醛和7.0 M尿素的变性能力强。采用含有2.0 M乙酸的毛细管内变性凝胶电泳,在25分钟内即可实现100 ~ 10,000 nt RNA的基线分离。与常规毛细管凝胶电泳相比,用7.0 M尿素制备样品的RNA分离分辨率更高,分离板数也更大。
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