Label-free and reagentless electrochemical detection of PCR fragments using self-assembled quinone derivative monolayer: Application to Mycobacterium tuberculosis

Q D Zhang; G March; V Noel; B Piro; S Reisberg; L D Tran; L V Hai; E Abadia; P E Nielsen; C Sola; M C Pham

doi:10.1016/j.bios.2011.11.048

Label-free and reagentless electrochemical detection of PCR fragments using self-assembled quinone derivative monolayer: Application to Mycobacterium tuberculosis

Q D Zhang, G March, V Noel, B Piro, S Reisberg, L D Tran, L V Hai, E Abadia, P E Nielsen, C Sola, M C Pham

Institut for Cellulær og Molekylær Medicin

24 Citationer (Scopus)

Abstract

We report a signal-on, label-free and reagentless electrochemical DNA biosensor, based on a mixed self-assembled monolayer of thiolated hydroxynaphthoquinone and thiolated oligonucleotide. Electrochemical changes resulting from hybridization were evidenced with oligonucleotide targets (as models), as well as with polymerase chain reaction (PCR) products related to different lineages of Mycobacterium tuberculosis strains. With pure oligonucleotides, this system achieves high sensitivity (~300pM of DNA target, i.e. 30fmol in a 100µL sample) and excellent selectivity, allowing to detect a single mismatch on a sequence of 20 bases. With PCR products, current changes are specific to the bacterial strain from which the PCR fragment is produced. In addition, the sensor response is of the signal-on type, giving a positive signal change upon hybridization, and therefore does not suffer from false positive responses due to non-specific adsorption of DNA.

Originalsprog	Engelsk
Tidsskrift	Journal of Biosensors & Bioelectronics
Vol/bind	32
Udgave nummer	1
Sider (fra-til)	163-8
Antal sider	6
ISSN	2155-6210
DOI	https://doi.org/10.1016/j.bios.2011.11.048
Status	Udgivet - 15 feb. 2012

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10.1016/j.bios.2011.11.048

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Zhang, Q. D., March, G., Noel, V., Piro, B., Reisberg, S., Tran, L. D., Hai, L. V., Abadia, E., Nielsen, P. E., Sola, C., & Pham, M. C. (2012). Label-free and reagentless electrochemical detection of PCR fragments using self-assembled quinone derivative monolayer: Application to Mycobacterium tuberculosis. Journal of Biosensors & Bioelectronics, 32(1), 163-8. https://doi.org/10.1016/j.bios.2011.11.048

Zhang, QD, March, G, Noel, V, Piro, B, Reisberg, S, Tran, LD, Hai, LV, Abadia, E, Nielsen, PE, Sola, C & Pham, MC 2012, 'Label-free and reagentless electrochemical detection of PCR fragments using self-assembled quinone derivative monolayer: Application to Mycobacterium tuberculosis', Journal of Biosensors & Bioelectronics, bind 32, nr. 1, s. 163-8. https://doi.org/10.1016/j.bios.2011.11.048

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title = "Label-free and reagentless electrochemical detection of PCR fragments using self-assembled quinone derivative monolayer: Application to Mycobacterium tuberculosis",

abstract = "We report a signal-on, label-free and reagentless electrochemical DNA biosensor, based on a mixed self-assembled monolayer of thiolated hydroxynaphthoquinone and thiolated oligonucleotide. Electrochemical changes resulting from hybridization were evidenced with oligonucleotide targets (as models), as well as with polymerase chain reaction (PCR) products related to different lineages of Mycobacterium tuberculosis strains. With pure oligonucleotides, this system achieves high sensitivity (~300pM of DNA target, i.e. 30fmol in a 100µL sample) and excellent selectivity, allowing to detect a single mismatch on a sequence of 20 bases. With PCR products, current changes are specific to the bacterial strain from which the PCR fragment is produced. In addition, the sensor response is of the signal-on type, giving a positive signal change upon hybridization, and therefore does not suffer from false positive responses due to non-specific adsorption of DNA.",

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AU - Zhang, Q D

AU - March, G

AU - Noel, V

AU - Piro, B

AU - Reisberg, S

AU - Tran, L D

AU - Hai, L V

AU - Abadia, E

AU - Nielsen, P E

AU - Sola, C

AU - Pham, M C

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N2 - We report a signal-on, label-free and reagentless electrochemical DNA biosensor, based on a mixed self-assembled monolayer of thiolated hydroxynaphthoquinone and thiolated oligonucleotide. Electrochemical changes resulting from hybridization were evidenced with oligonucleotide targets (as models), as well as with polymerase chain reaction (PCR) products related to different lineages of Mycobacterium tuberculosis strains. With pure oligonucleotides, this system achieves high sensitivity (~300pM of DNA target, i.e. 30fmol in a 100µL sample) and excellent selectivity, allowing to detect a single mismatch on a sequence of 20 bases. With PCR products, current changes are specific to the bacterial strain from which the PCR fragment is produced. In addition, the sensor response is of the signal-on type, giving a positive signal change upon hybridization, and therefore does not suffer from false positive responses due to non-specific adsorption of DNA.

AB - We report a signal-on, label-free and reagentless electrochemical DNA biosensor, based on a mixed self-assembled monolayer of thiolated hydroxynaphthoquinone and thiolated oligonucleotide. Electrochemical changes resulting from hybridization were evidenced with oligonucleotide targets (as models), as well as with polymerase chain reaction (PCR) products related to different lineages of Mycobacterium tuberculosis strains. With pure oligonucleotides, this system achieves high sensitivity (~300pM of DNA target, i.e. 30fmol in a 100µL sample) and excellent selectivity, allowing to detect a single mismatch on a sequence of 20 bases. With PCR products, current changes are specific to the bacterial strain from which the PCR fragment is produced. In addition, the sensor response is of the signal-on type, giving a positive signal change upon hybridization, and therefore does not suffer from false positive responses due to non-specific adsorption of DNA.

U2 - 10.1016/j.bios.2011.11.048

DO - 10.1016/j.bios.2011.11.048

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Label-free and reagentless electrochemical detection of PCR fragments using self-assembled quinone derivative monolayer: Application to Mycobacterium tuberculosis

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