Influence of elution conditions on DNA transport behavior in free solution by hydrodynamic chromatography

We have previously developed bare narrow-bore capillary chromatography. In this work, high-performance DNA separation was realized for a size range of 10–800 base pairs(bp) utilizing bare narrow-bore capillary chromatography with 750 nm- radius capillaries. Separation behavior of double-stranded DNA...

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Bibliographic Details
Published in:Science China. Chemistry 2015-10, Vol.58 (10), p.1605-1611
Main Authors: Liu, Lei, Veerappan, Vijaykumar, Bian, Yuzhi, Guo, Guangsheng, Wang, Xiayan
Format: Article
Language:English
Subjects:
Capillaries
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Chromatography
DNA分子
DNA片段
Eluents
Elution
Fragments
Separation
Transport phenomena
分离行为
双链DNA
毛细管色谱法
水溶性
自由
转运
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Summary:We have previously developed bare narrow-bore capillary chromatography. In this work, high-performance DNA separation was realized for a size range of 10–800 base pairs(bp) utilizing bare narrow-bore capillary chromatography with 750 nm- radius capillaries. Separation behavior of double-stranded DNA(ds DNA) fragments was investigated over a range of eluent concentrations and elution pressures. DNA molecules were hydrodynamically separated in a size-dependent manner in free solution without any sieving matrices, with the longer fragments being eluted out from the capillary earlier. It was found that the eluent concentration variously influenced the transport behavior for different-sized DNA fragments depending upon the configuration of DNA molecules and the association of counterions. Ionic strength of the solutions strongly impacted DNA persistence length. Enhanced elution pressure could shorten analysis time with a slight loss in resolution. Excellent efficiency of two million theoretical plates per meter was achieved, which indicates the enormous potential of bare narrow-bore capillary chromatography for the analysis of DNA fragments. These findings would be useful in understanding the transport behavior of DNA fragments in confined dimensions for chromatography in free solution.
ISSN:1674-7291
1869-1870
DOI:10.1007/s11426-015-5384-z