Improvement of frequency sensitivity of series photodetector frequency circuit system and its application for Cy5 fluorescence detection

This study elucidated the frequency characteristics of series photodetector frequency circuit system for detection of DNA probe ET996 marked with fluorescence dye Cy5. We developed 48 MHz series photodetector frequency circuit system with good sensitivity for fluorescence detection. In accordance wi...

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Bibliographic Details
Published in:Optik (Stuttgart) 2011-10, Vol.122 (19), p.1747-1752
Main Authors: Hsu, Yuh Ming, Chang, Chung Cheng
Format: Article
Language:English
Subjects:
Adjustment
Bias
Capacitance
Circuits
Cy5
DNA probe
Dyes
Fluorescence
Fluorescence dye concentration
Photodetector
Photodetectors
Sensors
Series photodetector frequency circuit system
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Summary:This study elucidated the frequency characteristics of series photodetector frequency circuit system for detection of DNA probe ET996 marked with fluorescence dye Cy5. We developed 48 MHz series photodetector frequency circuit system with good sensitivity for fluorescence detection. In accordance with the theory of series photodetector frequency circuit system, the frequency sensitivity can be improved by adjusting circuit parameters such as A (tan θ), C q , C 0, and C p . In this research of A adjustment, the capacitance parameter C m of 48 MHz series photodetector frequency circuit system was adjusted to improve the frequency sensitivity for detection of fluorescence dye concentration; moreover, the bias of photodetector was also adjusted to improve the frequency sensitivity. In the optimal conditions of capacitance match and photodetector bias, the detection limit of ET996-Cy5 fluorescence dye concentration 2 pmol/L can be measured by 48 MHz sensor system. The results of fluorescence experiment also demonstrated that the frequency shift of 48 MHz sensor system was linearly related to the logarithm of fluorescence dye concentration from 200 nmol/L to 2 pmol/L. The frequency method can be applied simply and the detection limit of ET996-Cy5 fluorescence dye concentration was lower than the conventional fluorescence technique by 2 orders.
ISSN:0030-4026
1618-1336
DOI:10.1016/j.ijleo.2010.10.036