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Fast detection of protein kinase B in chrysin treated colorectal cancer cells using a novel multicore microfiber biosensor

Rapid and accurate determination of target proteins in cells provide essential diagnostic information for early detection of diseases, evaluation of drug responses, and the study of pathophysiological mechanisms. Traditional Western blotting method has been used for the determination, but it is comp...

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Published in:	Communications engineering 2024-12, Vol.3 (1), p.185-8, Article 185
Main Authors:	Tian, Zhen, Xuan, Hongzhuan, Yao, Yicun, Hao, Shengyu, Zhang, Zhichao, Zhang, Bingyuan, Zhang, Jingao, Zhang, Liqiang, Sang, Xinzhu, Yuan, Jinhui, Farrell, Gerald, Wu, Qiang
Format:	Article
Language:	English
Subjects:	639/166/985 639/624/1075/1083 639/624/1075/187 96/10 Biosensors Cancer therapies Electric fields Engineering Enzymes Kinases Mass spectrometry Microfibers Optical fibers Proteins Scientific imaging Sensors Target detection
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creator	Tian, Zhen Xuan, Hongzhuan Yao, Yicun Hao, Shengyu Zhang, Zhichao Zhang, Bingyuan Zhang, Jingao Zhang, Liqiang Sang, Xinzhu Yuan, Jinhui Farrell, Gerald Wu, Qiang
description	Rapid and accurate determination of target proteins in cells provide essential diagnostic information for early detection of diseases, evaluation of drug responses, and the study of pathophysiological mechanisms. Traditional Western blotting method has been used for the determination, but it is complex, time-consuming, and semi-quantitative. Here, a tapered seven-core fiber (TSCF) biosensor was designed and fabricated. By immobilizing protein kinase B (PKB), also known as AKT, antibody onto TSCF surface, the microfiber biosensor can be used for quantitatively detecting the AKT level in solution concentrations as low as 0.26 ng/mL. To test the reliability of the TSCF sensing method in a medical application, the TSCF biosensor was used to study the relationship between chrysin’s anticancer effect and the concentration of AKT in a human colorectal cancer cell line (LoVo cells). The results reveal that the inhibitory effect of chrysin on LoVo cells is positively correlated with the dose, agreeing well with the equivalent results using the traditional Western blotting method. Zhen Tian, Hongzhuan Xuan, and colleagues show an optical fiber sensor for measuring concentration changes of protein kinase B, also known as AKT, extracted from human Lovo cells. Their biosensor allows studying anti-cancer mechanisms in the human body.
doi_str_mv	10.1038/s44172-024-00332-y
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Traditional Western blotting method has been used for the determination, but it is complex, time-consuming, and semi-quantitative. Here, a tapered seven-core fiber (TSCF) biosensor was designed and fabricated. By immobilizing protein kinase B (PKB), also known as AKT, antibody onto TSCF surface, the microfiber biosensor can be used for quantitatively detecting the AKT level in solution concentrations as low as 0.26 ng/mL. To test the reliability of the TSCF sensing method in a medical application, the TSCF biosensor was used to study the relationship between chrysin’s anticancer effect and the concentration of AKT in a human colorectal cancer cell line (LoVo cells). The results reveal that the inhibitory effect of chrysin on LoVo cells is positively correlated with the dose, agreeing well with the equivalent results using the traditional Western blotting method. 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Traditional Western blotting method has been used for the determination, but it is complex, time-consuming, and semi-quantitative. Here, a tapered seven-core fiber (TSCF) biosensor was designed and fabricated. By immobilizing protein kinase B (PKB), also known as AKT, antibody onto TSCF surface, the microfiber biosensor can be used for quantitatively detecting the AKT level in solution concentrations as low as 0.26 ng/mL. To test the reliability of the TSCF sensing method in a medical application, the TSCF biosensor was used to study the relationship between chrysin’s anticancer effect and the concentration of AKT in a human colorectal cancer cell line (LoVo cells). The results reveal that the inhibitory effect of chrysin on LoVo cells is positively correlated with the dose, agreeing well with the equivalent results using the traditional Western blotting method. 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subjects	639/166/985 639/624/1075/1083 639/624/1075/187 96/10 Biosensors Cancer therapies Electric fields Engineering Enzymes Kinases Mass spectrometry Microfibers Optical fibers Proteins Scientific imaging Sensors Target detection
title	Fast detection of protein kinase B in chrysin treated colorectal cancer cells using a novel multicore microfiber biosensor
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