Binding and purification of plasmid DNA using multi-layered carbon nanotubes

Irina I. Shakhmaeva; Emil R. Bulatov; Oksana V. Bondar; Diana V. Saifullina; Mustafa Culha; Albert A. Rizvanov; Timur I. Abdullin

doi:10.1016/j.jbiotec.2011.01.022

Binding and purification of plasmid DNA using multi-layered carbon nanotubes

Irina I. Shakhmaeva, Emil R. Bulatov, Oksana V. Bondar, Diana V. Saifullina, Mustafa Culha, Albert A. Rizvanov, Timur I. Abdullin

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

We propose a new method for the separation of nucleic acids using multi-layered carbon nanotubes (CNTs) as an adsorbent. According to agarose gel electrophoresis, oxidized water-stable CNTs adsorb certain forms of nucleic acids, such as high molecular weight RNA, chromosomal DNA, linear and denatured forms of plasmid DNA. However, CNTs do not adsorb supercoiled form of plasmid DNA. Nucleic acids bound to CNTs can be readily removed by centrifugation whereas supercoiled plasmid DNA remains in solution. Upon the addition of divalent metal ions supercoiled plasmid DNA forms relatively stable complexes with CNTs due to chelation. Thus, new details about association of nucleic acids with CNTs were revealed and stoichiometry of the complexes was estimated. Our results can be used for fine purification of supercoiled plasmid DNA for gene therapy applications as well as manipulation of nucleic acids for biosensor design.

Original language	English (US)
Pages (from-to)	102-107
Number of pages	6
Journal	Journal of Biotechnology
Volume	152
Issue number	3
DOIs	https://doi.org/10.1016/j.jbiotec.2011.01.022
State	Published - Mar 20 2011
Externally published	Yes

Keywords

Adsorbents
Biosensors
Carbon nanotubes
Gene therapy
Nucleic acid separation
Plasmid DNA

ASJC Scopus subject areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology

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10.1016/j.jbiotec.2011.01.022

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title = "Binding and purification of plasmid DNA using multi-layered carbon nanotubes",

abstract = "We propose a new method for the separation of nucleic acids using multi-layered carbon nanotubes (CNTs) as an adsorbent. According to agarose gel electrophoresis, oxidized water-stable CNTs adsorb certain forms of nucleic acids, such as high molecular weight RNA, chromosomal DNA, linear and denatured forms of plasmid DNA. However, CNTs do not adsorb supercoiled form of plasmid DNA. Nucleic acids bound to CNTs can be readily removed by centrifugation whereas supercoiled plasmid DNA remains in solution. Upon the addition of divalent metal ions supercoiled plasmid DNA forms relatively stable complexes with CNTs due to chelation. Thus, new details about association of nucleic acids with CNTs were revealed and stoichiometry of the complexes was estimated. Our results can be used for fine purification of supercoiled plasmid DNA for gene therapy applications as well as manipulation of nucleic acids for biosensor design.",

keywords = "Adsorbents, Biosensors, Carbon nanotubes, Gene therapy, Nucleic acid separation, Plasmid DNA",

author = "Shakhmaeva, {Irina I.} and Bulatov, {Emil R.} and Bondar, {Oksana V.} and Saifullina, {Diana V.} and Mustafa Culha and Rizvanov, {Albert A.} and Abdullin, {Timur I.}",

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AU - Shakhmaeva, Irina I.

AU - Bulatov, Emil R.

AU - Bondar, Oksana V.

AU - Saifullina, Diana V.

AU - Culha, Mustafa

AU - Rizvanov, Albert A.

AU - Abdullin, Timur I.

PY - 2011/3/20

Y1 - 2011/3/20

N2 - We propose a new method for the separation of nucleic acids using multi-layered carbon nanotubes (CNTs) as an adsorbent. According to agarose gel electrophoresis, oxidized water-stable CNTs adsorb certain forms of nucleic acids, such as high molecular weight RNA, chromosomal DNA, linear and denatured forms of plasmid DNA. However, CNTs do not adsorb supercoiled form of plasmid DNA. Nucleic acids bound to CNTs can be readily removed by centrifugation whereas supercoiled plasmid DNA remains in solution. Upon the addition of divalent metal ions supercoiled plasmid DNA forms relatively stable complexes with CNTs due to chelation. Thus, new details about association of nucleic acids with CNTs were revealed and stoichiometry of the complexes was estimated. Our results can be used for fine purification of supercoiled plasmid DNA for gene therapy applications as well as manipulation of nucleic acids for biosensor design.

AB - We propose a new method for the separation of nucleic acids using multi-layered carbon nanotubes (CNTs) as an adsorbent. According to agarose gel electrophoresis, oxidized water-stable CNTs adsorb certain forms of nucleic acids, such as high molecular weight RNA, chromosomal DNA, linear and denatured forms of plasmid DNA. However, CNTs do not adsorb supercoiled form of plasmid DNA. Nucleic acids bound to CNTs can be readily removed by centrifugation whereas supercoiled plasmid DNA remains in solution. Upon the addition of divalent metal ions supercoiled plasmid DNA forms relatively stable complexes with CNTs due to chelation. Thus, new details about association of nucleic acids with CNTs were revealed and stoichiometry of the complexes was estimated. Our results can be used for fine purification of supercoiled plasmid DNA for gene therapy applications as well as manipulation of nucleic acids for biosensor design.

KW - Adsorbents

KW - Biosensors

KW - Carbon nanotubes

KW - Gene therapy

KW - Nucleic acid separation

KW - Plasmid DNA

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SN - 0168-1656

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JO - Journal of Biotechnology

JF - Journal of Biotechnology

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ER -

Binding and purification of plasmid DNA using multi-layered carbon nanotubes

Abstract

Keywords

ASJC Scopus subject areas

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