Nanomaterials and chip-based nanostructures for capillary electrophoretic separations of DNA

Capillary electrophoresis (CE) and microchip capillary electrophoresis (MCE) using polymer solutions are two of the most powerful techniques for the analysis of DNA. Problems, such as the difficulty of filling polymer solution to small separation channels, recovering DNA, and narrow separation size...

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Published inElectrophoresis Vol. 26; no. 2; pp. 320 - 330
Main Authors Lin, Yang-Wei, Huang, Ming-Feng, Chang, Huan-Tsung
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 01.01.2005
WILEY‐VCH Verlag
Subjects
DNA
DNA - isolation & purification
Electrophoresis, Capillary - instrumentation
Electrophoresis, Capillary - methods
Electrophoresis, Microchip - instrumentation
Electrophoresis, Microchip - methods
Entropy
Magnetics
Microchip capillary electrophoresis
Nanomaterials
Nanostructures
Nanotechnology - instrumentation
Nanotechnology - methods
Nanotubes
Polymers
Review
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Abstract Capillary electrophoresis (CE) and microchip capillary electrophoresis (MCE) using polymer solutions are two of the most powerful techniques for the analysis of DNA. Problems, such as the difficulty of filling polymer solution to small separation channels, recovering DNA, and narrow separation size ranges, have put a pressure on developing new techniques for DNA analysis. In this review, we deal with DNA separation using chip‐based nanostructures and nanomaterials in CE and MCE. On the basis of the dependence of the mobility of DNA molecules on the size and shape of nanostructures, several unique chip‐based devices have been developed for the separation of DNA, particularly for long DNA molecules. Unlike conventional CE and MCE methods, sieving matrices are not required when using nanostructures. Filling extremely low‐viscosity nanomaterials in the presence and absence of polymer solutions to small separation channels is an alternative for the separations of DNA from several base pairs (bp) to tens kbp. The advantages and shortages of the use of nanostructured devices and nanomaterials for DNA separation are carefully addressed with respect to speed, resolution, reproducibility, costs, and operation.
AbstractList Capillary electrophoresis (CE) and microchip capillary electrophoresis (MCE) using polymer solutions are two of the most powerful techniques for the analysis of DNA. Problems, such as the difficulty of filling polymer solution to small separation channels, recovering DNA, and narrow separation size ranges, have put a pressure on developing new techniques for DNA analysis. In this review, we deal with DNA separation using chip‐based nanostructures and nanomaterials in CE and MCE. On the basis of the dependence of the mobility of DNA molecules on the size and shape of nanostructures, several unique chip‐based devices have been developed for the separation of DNA, particularly for long DNA molecules. Unlike conventional CE and MCE methods, sieving matrices are not required when using nanostructures. Filling extremely low‐viscosity nanomaterials in the presence and absence of polymer solutions to small separation channels is an alternative for the separations of DNA from several base pairs (bp) to tens kbp. The advantages and shortages of the use of nanostructured devices and nanomaterials for DNA separation are carefully addressed with respect to speed, resolution, reproducibility, costs, and operation.
Capillary electrophoresis (CE) and microchip capillary electrophoresis (MCE) using polymer solutions are two of the most powerful techniques for the analysis of DNA. Problems, such as the difficulty of filling polymer solution to small separation channels, recovering DNA, and narrow separation size ranges, have put a pressure on developing new techniques for DNA analysis. In this review, we deal with DNA separation using chip-based nanostructures and nanomaterials in CE and MCE. On the basis of the dependence of the mobility of DNA molecules on the size and shape of nanostructures, several unique chip-based devices have been developed for the separation of DNA, particularly for long DNA molecules. Unlike conventional CE and MCE methods, sieving matrices are not required when using nanostructures. Filling extremely low-viscosity nanomaterials in the presence and absence of polymer solutions to small separation channels is an alternative for the separations of DNA from several base pairs (bp) to tens kbp. The advantages and shortages of the use of nanostructured devices and nanomaterials for DNA separation are carefully addressed with respect to speed, resolution, reproducibility, costs, and operation.Capillary electrophoresis (CE) and microchip capillary electrophoresis (MCE) using polymer solutions are two of the most powerful techniques for the analysis of DNA. Problems, such as the difficulty of filling polymer solution to small separation channels, recovering DNA, and narrow separation size ranges, have put a pressure on developing new techniques for DNA analysis. In this review, we deal with DNA separation using chip-based nanostructures and nanomaterials in CE and MCE. On the basis of the dependence of the mobility of DNA molecules on the size and shape of nanostructures, several unique chip-based devices have been developed for the separation of DNA, particularly for long DNA molecules. Unlike conventional CE and MCE methods, sieving matrices are not required when using nanostructures. Filling extremely low-viscosity nanomaterials in the presence and absence of polymer solutions to small separation channels is an alternative for the separations of DNA from several base pairs (bp) to tens kbp. The advantages and shortages of the use of nanostructured devices and nanomaterials for DNA separation are carefully addressed with respect to speed, resolution, reproducibility, costs, and operation.
Author Lin, Yang-Wei
Huang, Ming-Feng
Chang, Huan-Tsung
Author_xml – sequence: 1
  givenname: Yang-Wei
  surname: Lin
  fullname: Lin, Yang-Wei
  organization: Department of Chemistry,National Taiwan University,Taipei, Taiwan, R.O.C
– sequence: 2
  givenname: Ming-Feng
  surname: Huang
  fullname: Huang, Ming-Feng
  organization: Department of Chemistry,National Taiwan University,Taipei, Taiwan, R.O.C
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  givenname: Huan-Tsung
  surname: Chang
  fullname: Chang, Huan-Tsung
  email: changht@ntu.edu.tw
  organization: Department of Chemistry,National Taiwan University,Taipei, Taiwan, R.O.C
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2004; 22
2003; 1014
1989; 22
2002; 74
2002; 75
2002; 295
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2000; 21
2000; 85
2000; 72
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1994; 66
1995; 710
2002; 979
2002; 81
1999; 83
2001; 22
2004; 304
2003; 75
2004; 76
1996; 29
2004; 379
1998; 19
1987; 87
1987; 84
2002; 20
2002; 83
2002; 23
1999; 17
2002; 89
1995; 67
1997; 463
1995; 669
2002; 88
2003; 24
1999; 32
1994; 15
1999; 96
1988; 85
2000; 288
2001; 34
2001; 56
1998; 4
2001; 73
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Snippet Capillary electrophoresis (CE) and microchip capillary electrophoresis (MCE) using polymer solutions are two of the most powerful techniques for the analysis...
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SubjectTerms DNA
DNA - isolation & purification
Electrophoresis, Capillary - instrumentation
Electrophoresis, Capillary - methods
Electrophoresis, Microchip - instrumentation
Electrophoresis, Microchip - methods
Entropy
Magnetics
Microchip capillary electrophoresis
Nanomaterials
Nanostructures
Nanotechnology - instrumentation
Nanotechnology - methods
Nanotubes
Polymers
Review
Title Nanomaterials and chip-based nanostructures for capillary electrophoretic separations of DNA
URI https://api.istex.fr/ark:/67375/WNG-4FRBNP1V-B/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Felps.200406171
https://www.ncbi.nlm.nih.gov/pubmed/15657878
https://www.proquest.com/docview/67440600
Volume 26
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