Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes
In order to harness the conductivity of Lambda DNA (λ-DNA), the conduction of DNA molecules needs to be determined by DEP trapping experiments. The electrical properties of DNA molecules have been characterized by crossover frequency method. In this work a YOYO®-1 Iodide (purchased from Invitrogen L...
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my.unikl.ir-70572014-06-12T01:32:28Z Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes Mohamad, Ahmad Sabry (UniKL BMI) Jeynes, Jonathan Charlie Hughes, Michael Pycraft Dielectrophoresis Lambda DNA quadruple electrodes In order to harness the conductivity of Lambda DNA (λ-DNA), the conduction of DNA molecules needs to be determined by DEP trapping experiments. The electrical properties of DNA molecules have been characterized by crossover frequency method. In this work a YOYO®-1 Iodide (purchased from Invitrogen Ltd UK) shows a thousand-fold increase in its green fluorescence when bound to λ-DNA. The double stranded λ-DNA with 48.5 kbp trapped at the high-field region of gold quadruple-electrodes and acting as negative DEP. To ensure the correct system functionalities the simulation of electric fields were performed. The results demonstrate positively behaved particles would be pulled to electrode tips, while negatively behaved particles push away to the regions between the electrodes. Malaysian Government under Grant Skim Tindikan MARA UniKL BMI 2014-06-03T08:56:55Z 2014-06-03T08:56:55Z 2014-06-03 http://localhost/xmlui/handle/123456789/7057 |
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Dielectrophoresis Lambda DNA quadruple electrodes |
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Dielectrophoresis Lambda DNA quadruple electrodes Mohamad, Ahmad Sabry (UniKL BMI) Jeynes, Jonathan Charlie Hughes, Michael Pycraft Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes |
| description |
In order to harness the conductivity of Lambda DNA (λ-DNA), the conduction of DNA molecules needs to be determined by DEP trapping experiments. The electrical properties of DNA molecules have been characterized by crossover frequency method. In this work a YOYO®-1 Iodide (purchased from Invitrogen Ltd UK) shows a thousand-fold increase in its green fluorescence when bound to λ-DNA. The double stranded λ-DNA with 48.5 kbp trapped at the high-field region of gold quadruple-electrodes and acting as negative DEP. To ensure the correct system functionalities the simulation of electric fields were performed. The results demonstrate positively behaved particles would be pulled to electrode tips, while negatively behaved particles push away to the regions between the electrodes. |
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| author |
Mohamad, Ahmad Sabry (UniKL BMI) Jeynes, Jonathan Charlie Hughes, Michael Pycraft |
| author_facet |
Mohamad, Ahmad Sabry (UniKL BMI) Jeynes, Jonathan Charlie Hughes, Michael Pycraft |
| author_sort |
Mohamad, Ahmad Sabry (UniKL BMI) |
| title |
Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes |
| title_short |
Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes |
| title_full |
Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes |
| title_fullStr |
Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes |
| title_full_unstemmed |
Dielectrophoretic Collection of Lambda-Dna Using Quadruple Electrodes |
| title_sort |
dielectrophoretic collection of lambda-dna using quadruple electrodes |
| publishDate |
2014 |
| url |
http://localhost/xmlui/handle/123456789/7057 |
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1644484849035116544 |
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13.251813 |