How does a supercoiled DNA chain pass through a small conical glass pore?
Publication in refereed journal

香港中文大學研究人員

引用次數
替代計量分析
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其它資訊
摘要We investigated the captioned question by a resistive pulse technique, in which a constant electrical potential was applied inside and outside of a conical glass capillary with its tip opening diameter (d) down to similar to 10 nm. The insertion of a chain segment into the tip decreases the current (I-p). Our studies on transport dynamics of individual supercoiled DNA chains through such a tip with different openings at various potentials (V) reveal that when d approximate to 35 nm, they can pass through the conical glass capillary without much stretching; namely, the current pulse has a typical triangle shape and its half-height duration time (Delta(ld), (1/2)) decreases, but its occurring frequency (integral) increases exponentially, as V increases. For a smaller tip opening (d approximate to 14 nm), we found that f strangely increases and then decreases with increasing V. In addition, the current pulse is significantly skewed with a long tail and its minimum occurs when V approximate to 200 mV. Typically, each current pulse is composed of four steps as follows: (1) I-p sharply decreases from its baseline (I-o) when a DNA chain approaches the tip opening and inserts a segment to block the pore; (2) the inserted segment is stretched under the electric field gradient so that the pore is less blocked, resulting in a slight current increase; (3) then I-p slightly decreases once more, indicating that the pulling of the inserted segment is faster than the relaxation (unwinding) of the rest of the chain outside so that it clogs at the tip entrance; and (4) I-p gradually increases and finally returns to I-o because more and more segments are gradually pulled in by the electrical field until the entire chain slips through the conical glass capillary. These steps can be well explained in terms of a big difference between times of pulling the first segment inside the tip and relaxing the rest of the segments outside.
著者Chen QJ, Diao S, Wu C
期刊名稱Soft Matter
出版年份2012
月份1
日期1
卷號8
期次20
出版社Royal Society of Chemistry
頁次5451 - 5458
國際標準期刊號1744-683X
電子國際標準期刊號1744-6848
語言英式英語
Web of Science 學科類別Chemistry; Chemistry, Physical; CHEMISTRY, PHYSICAL; Materials Science; Materials Science, Multidisciplinary; MATERIALS SCIENCE, MULTIDISCIPLINARY; Physics; Physics, Multidisciplinary; PHYSICS, MULTIDISCIPLINARY; Polymer Science; POLYMER SCIENCE

上次更新時間 2021-12-01 於 00:03