Thiol-Mediated Anchoring of Silver Cations to DNA for Construction of Nanofibers on DNA Scaffold

Anatoly A Zinchenko; Ning Chen; Damien Baigi

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Thiol-Mediated Anchoring of Silver Cations to DNA for Construction of Nanofibers on DNA Scaffold

机译：硫醇介导的银阳离子锚定DNA在DNA支架上构建纳米纤维

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The formation of metal-containing Ag-mercaptoethanol (- Ag-S(R)-)_(n) complexes on DNA chain scaffold was studied by UV spectroscopy, zeta potential measurement, and fluorescence and transmission electron microscopies. Experimental results made clear the mechanism of DNA mineralization and compaction, according to which intercalation of silver cations into DNA scaffold and further formation of (-Ag-S(R)-)_(n) oligomeric complexes on DNA induce efficient DNA chain compaction by terminal Ag~(+) cations. By transmission electron microscopy the formation of fiber-like DNA-templated nanostructures was observed. DNA-Ag-thiol complexes are promising for DNA-templated engineering of hybrid ID nanostructures with adjustable chemical functionalities by choosing appropriate thiol ligand.

机译：通过UV光谱，Zeta电位测量和荧光和透射电子显微镜研究了DNA链支架上的含金属的Ag-巯基乙醇（ - Ag-S（R） - ）_（n）复合物的形成。实验结果明确了DNA矿化和压实的机制，根据哪种银阳离子插入DNA支架，进一步形成（-A-S（R） - ）_（n）寡聚复合物对DNA诱导有效的DNA链压实终端Ag〜（+）阳离子。通过透射电子显微镜检查纤维样DNA模板纳米结构的形成。通过选择合适的硫醇配体，DNA-Ag-Thiol络合物是具有可调节的化学功能的杂化ID纳米结构的DNA模板化工程。

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《Biomacromolecules》 |2012年第6期|共7页
作者
Anatoly A Zinchenko; Ning Chen; Damien Baigi;
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作者单位

Graduate School of Environmental Studies Nagoya University Chikusa Nagoya 464-8601 Japan;

Graduate School of Environmental Studies Nagoya University Chikusa Nagoya 464-8601 Japan;

Department of Chemistry Ecole Normale Superieure 24 rue Lhomond 7S005 Paris France;

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正文语种 eng
中图分类分子生物学;
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1. Thiol-Mediated Anchoring of Silver Cations to DNA for Construction of Nanofibers on DNA Scaffold [J] . Anatoly A Zinchenko, Ning Chen, Damien Baigi Biomacromolecules . 2012,第6期

机译：硫醇介导的银阳离子锚定DNA在DNA支架上构建纳米纤维
2. A new mode to light up an adjacent DNA-scaffolded silver probe pair and its application for specific DNA detection [J] . Bin-Cheng Yin, Jin-Liang Ma, Huynh-Nhu Le, Chemical Communications . 2014,第100期

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3. Exonuclease Ⅲ-assisted recycling amplification detection of hepatitis B virus DNA by DNA-scaffolded silver nanoclusters probe [J] . Zhi-Chao Liu, Li Zhang, Yun-Mei Zhang, Sensors and Actuators . 2014,第deca期

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4. Nucleic Acids Chemistry beyond the Watson-Crick Double Helix (41): Construction of RNA Display from DNAs Immobilized on Microsphere and its Application for Aptamer Optimization [C] . Tamaki Endoh, Tatsuya Ohyama, Naoki Sugimoto 日本化学会春季年会講演予稿集 . 2018

机译：核酸化学超出Watson-Cric Double Helix（41）：从固定在微球上固定的DNA的RNA显示器的构建及其对适体优化的应用
5. The thiol-mediated modification of radiation induced DNA strand break induction and cell survival after irradiation. [D] . Marciano-Horan, Annamarie Domenica. 2000

机译：辐射诱导的DNA链断裂诱导和辐射后细胞存活的硫醇介导的修饰。
6. Construction and Structure Studies of DNA-bipyridine Complexes as Versatile Scaffolds for Site-Specific Incorporation of Metal Ions into DNA [O] . Rui Wang, Srivathsan V. Ranganathan, Phensinee Haruehanroengra, -1

机译：DNA-联吡啶配合物作为多功能支架的结构和结构研究用于金属离子在DNA中的位点特异性结合
7. Toward site-specific, homogeneous and highly stable fluorescent silver nanoclusters fabrication on triplex DNA scaffolds [O] . Lingyan Feng, Zhenzhen Huang, Jinsong Ren, 2012

机译：朝向特异性，均匀且高度稳定的荧光银纳米纳米制备在三醇DNA支架上的制造

Thiol-Mediated Anchoring of Silver Cations to DNA for Construction of Nanofibers on DNA Scaffold

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