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ELECTROCHEMICAL BIOSENSOR FOR BRCA1 GENE AND TAMOXIFEN INTERACTION

Yıl 2020, Cilt 4, Sayı 1, 35 - 48, 31.01.2020
https://doi.org/10.26900/jsp.4.004

Öz

The electrochemical nanobiosensor was designed for the determination of specific DNA sequences related to breast cancer 1 (BRCA1) gene and interaction between Anticancer Drug Tamoxifen (TAM) and related DNA sequences by using pencil graphite electrode (PGE), bare and multi-walled carbon nanotube (MWCNT) contained screen printed carbon electrodes (SPEs) for the first time. Here, biomolecular interaction between TAM and DNA was investigated differential pulse voltammetry (DPV) based on not only guanine signal but also TAM oxidation response. It was obtained that the guanine signal at about +1.00V obtained from probe DNA or hybrid DNA shows a remerkable increase after the interaction with TAM. Additionally, it was found that TAM interact with guanine bases and TAM signal which is near the guanine oxidation area also increase after the interaction with DNA. Consequently, the prepared biosensor offer suitable platform for the analysis of DNA hybridization and TAM-DNA interaction sensitively.

Kaynakça

  • BAGNI, G, MASCINI, M., 2010. DNA Biosensor for Environmental Risk Assessment and Drugs Studies. In: Sensors for Chemical and Biological Applications. Ed.: Ram, M. K., Bhethanabotla, V. R., Boca Raton, FL: CRC Press. 249–276.
  • DANESHGAR, P., NOROUZI, P., GANJALI, M. R., ZAMANI, H. A. 2009. Ultrasensitive flow-injection electrochemical method for detection of anticancer drug tamoxifen, Talanta, 77: 1075-1080.
  • HURTADO-MONROY, R., VARGAS-VIVEROS, P., CARRILLO-MUÑNOZ, S., DUENAS-GONZALEZ, A., 2007. Tamoxifen-associated vasculitis in a breast cancer patient, World Journal of Surgical Oncology, 5-7
  • KATZ, E., WILLNER, I., WANG, J., 2004. Electroanalytical and Bioelectroanalytical Systems Based on Metal and Semiconductor Nanoparticles, Electroanal., 16: 19-44.
  • KEİSHAM, R., PROBHAT, K., RAJU K., 2012. Detection of anticancer drug tamoxifen using biosensor based on polyaniline probe modified with horseradish peroxidase, Materials Science and Engineering C,33: 583-587.
  • KELSEY, J. L., BERNSTEIN, L., 1996. Epidemiology and Prevention of Breast Cancer, Annual Review of Public Health, 17:47-67.
  • OZKAN, D., KARADENIZ H., ERDEM A., MASCINI M., OZSOZ M., 2004. Electrochemical genosensor for Mitomycin C- DNA interaction based on guanine signal, Journal of Pharmaceutical and Biomedical Analysis, 35(4), 905-912
  • PATOLSKY, F., LIEBER, C.M., 2005. Nanowire nanosensors, Materials Today, 8(4): 20-28.
  • PUMERA, M., SANCHEZ, S., ICHINOSE, I., TANG, J., 2007. Electrochemical nanobiosensors, Sensors and Actuators B Chem., 123: 1195-1205.
  • SEYMA AYDINLIK, S., OZKAN-ARIKSOYSAL, D., KARA, P., SAYINER, A. A., OZSOZ, M., 2011. A nucleic acid-based electrochemical biosensor for the detection of influenza B virus from PCR samples using gold nanoparticle-adsorbed disposable graphite electrode and Meldola’s blue as an intercalator, Anal. Methods, 3, 1607–1614.
  • SUBAK, H., OZKAN-ARIKSOYSAL, D., 2018. Label-Free electrochemical biosensor for the detection of ınfluenza genes and the solution of guanine-based displaying problem of dna hybridization. Sens. Actuators B, 263, pp. 196-207
  • TOPKAYA, S. N., OZKAN-ARIKSOYSAL, D., 2016. Prostate cancer biomarker detection with carbon nanotubes modified screen printed electrodes, Electroanalysis, 28(5), 1077-1084.
  • WANG, J., 2005. Nanomaterial-based electrochemical biosensors, Analyst, 130: 421-426.
  • YARMAN, A., and SCHELLER. F. W., 2014. The first electrochemical mıp sensor for tamoxifen, Sensors,14, 7647-7654.

ELECTROCHEMICAL BIOSENSOR FOR BRCA1 GENE AND TAMOXIFEN INTERACTION

Yıl 2020, Cilt 4, Sayı 1, 35 - 48, 31.01.2020
https://doi.org/10.26900/jsp.4.004

Öz

The electrochemical nanobiosensor was designed for the determination of specific DNA sequences related to breast cancer 1 (BRCA1) gene and interaction between Anticancer Drug Tamoxifen (TAM) and related DNA sequences by using pencil graphite electrode (PGE), bare and multi-walled carbon nanotube (MWCNT) contained screen printed carbon electrodes (SPEs) for the first time. Here, biomolecular interaction between TAM and DNA was investigated differential pulse voltammetry (DPV) based on not only guanine signal but also TAM oxidation response. It was obtained that the guanine signal at about +1.00V obtained from probe DNA or hybrid DNA shows a remerkable increase after the interaction with TAM. Additionally, it was found that TAM interact with guanine bases and TAM signal which is near the guanine oxidation area also increase after the interaction with DNA. Consequently, the prepared biosensor offer suitable platform for the analysis of DNA hybridization and TAM-DNA interaction sensitively.

Kaynakça

  • BAGNI, G, MASCINI, M., 2010. DNA Biosensor for Environmental Risk Assessment and Drugs Studies. In: Sensors for Chemical and Biological Applications. Ed.: Ram, M. K., Bhethanabotla, V. R., Boca Raton, FL: CRC Press. 249–276.
  • DANESHGAR, P., NOROUZI, P., GANJALI, M. R., ZAMANI, H. A. 2009. Ultrasensitive flow-injection electrochemical method for detection of anticancer drug tamoxifen, Talanta, 77: 1075-1080.
  • HURTADO-MONROY, R., VARGAS-VIVEROS, P., CARRILLO-MUÑNOZ, S., DUENAS-GONZALEZ, A., 2007. Tamoxifen-associated vasculitis in a breast cancer patient, World Journal of Surgical Oncology, 5-7
  • KATZ, E., WILLNER, I., WANG, J., 2004. Electroanalytical and Bioelectroanalytical Systems Based on Metal and Semiconductor Nanoparticles, Electroanal., 16: 19-44.
  • KEİSHAM, R., PROBHAT, K., RAJU K., 2012. Detection of anticancer drug tamoxifen using biosensor based on polyaniline probe modified with horseradish peroxidase, Materials Science and Engineering C,33: 583-587.
  • KELSEY, J. L., BERNSTEIN, L., 1996. Epidemiology and Prevention of Breast Cancer, Annual Review of Public Health, 17:47-67.
  • OZKAN, D., KARADENIZ H., ERDEM A., MASCINI M., OZSOZ M., 2004. Electrochemical genosensor for Mitomycin C- DNA interaction based on guanine signal, Journal of Pharmaceutical and Biomedical Analysis, 35(4), 905-912
  • PATOLSKY, F., LIEBER, C.M., 2005. Nanowire nanosensors, Materials Today, 8(4): 20-28.
  • PUMERA, M., SANCHEZ, S., ICHINOSE, I., TANG, J., 2007. Electrochemical nanobiosensors, Sensors and Actuators B Chem., 123: 1195-1205.
  • SEYMA AYDINLIK, S., OZKAN-ARIKSOYSAL, D., KARA, P., SAYINER, A. A., OZSOZ, M., 2011. A nucleic acid-based electrochemical biosensor for the detection of influenza B virus from PCR samples using gold nanoparticle-adsorbed disposable graphite electrode and Meldola’s blue as an intercalator, Anal. Methods, 3, 1607–1614.
  • SUBAK, H., OZKAN-ARIKSOYSAL, D., 2018. Label-Free electrochemical biosensor for the detection of ınfluenza genes and the solution of guanine-based displaying problem of dna hybridization. Sens. Actuators B, 263, pp. 196-207
  • TOPKAYA, S. N., OZKAN-ARIKSOYSAL, D., 2016. Prostate cancer biomarker detection with carbon nanotubes modified screen printed electrodes, Electroanalysis, 28(5), 1077-1084.
  • WANG, J., 2005. Nanomaterial-based electrochemical biosensors, Analyst, 130: 421-426.
  • YARMAN, A., and SCHELLER. F. W., 2014. The first electrochemical mıp sensor for tamoxifen, Sensors,14, 7647-7654.

Ayrıntılar

Birincil Dil İngilizce
Konular Fen
Bölüm Basic Sciences and Engineering
Yazarlar

Suzan YANIK Bu kişi benim (Sorumlu Yazar)
CANAKKALE ONSEKIZ MART UNIVERSITY, .
0000-0002-0532-4149
Türkiye


Dilsat OZKAN-ARIKSOYSAL Bu kişi benim
EGE UNIVERSITY
0000-0002-8471-5665
Türkiye


Selehattin YILMAZ>
CANAKKALE ONSEKIZ MART UNIVERSITY, .
0000-0003-4607-3523
Türkiye

Yayımlanma Tarihi 31 Ocak 2020
Yayınlandığı Sayı Yıl 2020, Cilt 4, Sayı 1

Kaynak Göster

APA Yanık, S. , Ozkan-arıksoysal, D. & Yılmaz, S. (2020). ELECTROCHEMICAL BIOSENSOR FOR BRCA1 GENE AND TAMOXIFEN INTERACTION . Journal of Scientific Perspectives , 4 (1) , 35-48 . DOI: 10.26900/jsp.4.004