Abstract
In this work, we have developed an electrochemical sensor for label-free and ultrasensitive detection of DNA (exemplified by breast cancer 1 gene) by using a photocatalytic reaction. Upon recognition of target DNA, the ethidium bromide molecules which were embedded in the hybridized double strand DNA (dsDNA, target DNA and capture DNA) could photo-catalytically generate singlet oxygen upon green light emitting diode irradiation, leading to an efficient cleave of the dsDNA. As a result, the voltammetry for the [Fe(CN)6]3−/4− was improved remarkably because of less blocking of electrode and weaker charge repulsion. Such a simple strategy provided an ultrasensitive detection of breast cancer 1 gene down to the attomolar level with a broad linear range (10 aM-100 nM). The sensor is by far the most sensitive electrochemical method for detection of breast cancer 1 gene without an amplification procedure. Also the sensor can discriminate mismatched DNA from perfectly matched target DNA with high selectivity. Therefore, simplicity, high sensitivity and specificity provided by this photocatalytic eletrosensor will make it a promising tool for early diagnosis of gene-related diseases.
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