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Literature DB >> 10726765

Influence of electric field strength and capillary dimensions on the separation of DNA.

Abstract

This work is a continuation of earlier studies on the influence of polymer concentration and polymer composition on the capillary electrophoretic separation of DNA. The focus is on the capillary dimensions and the electric field strength as factors influencing the resolution. The aim was to establish optimum conditions for the separation of single-stranded DNA in capillaries and derive strategies for the construction of micromachined separation devices.

Entities: Chemical

Mesh：

Substances：
DNA

Year: 2000 PMID： 10726765 DOI： 10.1002/(SICI)1522-2683(20000201)21:3<593::AID-ELPS593>3.0.CO;2-U

Source DB: PubMed Journal: Electrophoresis ISSN： 0173-0835 Impact factor: 3.535

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Cited

6 in total

1. Divergent dispersion behavior of ssDNA fragments during microchip electrophoresis in pDMA and LPA entangled polymer networks.

Authors: Christopher P Fredlake; Daniel G Hert; Thomas P Niedringhaus; Jennifer S Lin; Annelise E Barron
Journal: Electrophoresis Date: 2012-05 Impact factor: 3.535

2. Polymer systems designed specifically for DNA sequencing by microchip electrophoresis: a comparison with commercially available materials.

Authors: Christopher P Fredlake; Daniel G Hert; Brian E Root; Annelise E Barron
Journal: Electrophoresis Date: 2008-12 Impact factor: 3.535

3. Capillary electrophoresis-single strand conformation polymorphism for the detection of multiple mutations leading to tuberculosis drug resistance.

Authors: Sowmya Krothapalli; Michael K May; Christa N Hestekin
Journal: J Microbiol Methods Date: 2012-08-03 Impact factor: 2.363

Influence of electric field strength and capillary dimensions on the separation of DNA.

1. Divergent dispersion behavior of ssDNA fragments during microchip electrophoresis in pDMA and LPA entangled polymer networks.

2. Polymer systems designed specifically for DNA sequencing by microchip electrophoresis: a comparison with commercially available materials.

3. Capillary electrophoresis-single strand conformation polymorphism for the detection of multiple mutations leading to tuberculosis drug resistance.

4. Ultrafast DNA sequencing on a microchip by a hybrid separation mechanism that gives 600 bases in 6.5 minutes.

5. Current awareness on comparative and functional genomics.

6. Stronger together: Analytical techniques for recombinant adeno associated virus.