Characteristics of New Estrogen Biosensor Employing Taste Principles.
- Author:
Soon Bae KWON
1
;
Cil Han LEE
;
Kyung Nyun KIM
Author Information
1. Department of Physiology and Neuroscience, College of Dentistry, Gangneung-Wonju National University, Gangneung 210-702, Korea. knkim@gwnu.ac.kr
- Publication Type:Original Article
- Keywords:
taste;
biosensor;
estrogen;
receptor;
endocrine disrupting chemicals
- MeSH:
Aldosterone;
Biosensing Techniques;
Breast Neoplasms;
Cell Line;
Chromatography;
Clone Cells;
Collodion;
Diagnosis, Differential;
Endocrine Disruptors;
Estradiol;
Estrogens;
Humans;
Hydrogen-Ion Concentration;
Organothiophosphorus Compounds;
Progesterone;
Proteins;
Quartz;
Radioimmunoassay;
Testosterone
- From:International Journal of Oral Biology
2011;36(2):103-108
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Measurement of estrogen concentration in bio-samples are very important for differential diagnosis of various disease or evaluation of health status. However, it is difficult to collect immediate data of estrogen concentration because they are measured by radioimmunoassay or chromatography which need time- and cost-consuming sample pre-treatment. This study was performed for development of new estrogen biosensor employing taste principles, and for evaluation of cross reactivity between various steroid hormones. Gene sequence of ligand binding domain of alpha-human estrogen receptor (amino acid 302-553; hER-LBD) was cloned from human breast cancer cell line. The proteins of hER-LBD were produced by T7-E.coli expression system, and isolated by chromatography. hER-LBD were coated on the gold plated quartz crystal (AT-cut 9MHz), and resonance frequencies were measured by universal frequency counter. Estradiol, progesterone, testosterone, and aldosterone were used for cross reactivity of the hER-LBD. We also monitored influences of pH change in resonance frequency. The resonance frequencies of hER-LBD coated quartz crystal were decreased during increase of estrogen concentration from 15 microg/mL to 50 microg/mL. However, similar steroid hormones, progesterone and aldosterone, did not elicit the change in resonance frequency. Testosterone evoke weak change in resonance frequency. The new estrogen biosensor was more sensitive in pH 7.2 than in pH 7.6. These results suggest that hER-LBD coated quartz crystal biosensor is a probable estrogen biosensor.