A Highly Sensitive Square Wave Voltammetry Based Biosensor for Kinase Activity Measurements

Elza Snir; Einav Amit; Assaf Friedler; Shlomo Yitzchaik

doi:10.1002/BIP.22653

A Highly Sensitive Square Wave Voltammetry Based Biosensor for Kinase Activity Measurements

Elza Snir, Einav Amit, Assaf Friedler, Shlomo Yitzchaik

Institute of Chemistry

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

An electrochemical biosensor has been developed for ultrasensitive, label-free determination of protein kinase activity. The sensor is composed of a unique peptide monolayer on a gold electrode. It identifies the order change in the monolayer upon phosphorylation, via square wave voltametry (SWV) measurements. Disorder caused by the introduction of the phosphate groups onto the middle of the peptide sequence results in pinhole for-mation and therefore an increase in the electrochemical signal. The measured sensitivity was 100 nM of kinase and the dynamic range was 100 nM up to 11 lM. Sensitivity was an order of magnitude higher, and the dynamic range wider by two orders of magnitude, as compared to our previously reported impedimetric method, in which the sensitivity was 1 lM, and the dynamic range was 1– 20 lM.

Original language	English
Pages (from-to)	515-520
Number of pages	6
Journal	Biopolymers
Volume	104
Issue number	5
DOIs	https://doi.org/10.1002/BIP.22653
State	Published - Sep 2015

Keywords

electrochemistry
kinase biosensor
peptide monolayer

All Science Journal Classification (ASJC) codes

Biophysics
Biochemistry
Biomaterials
Organic Chemistry

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10.1002/BIP.22653

Cite this

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title = "A Highly Sensitive Square Wave Voltammetry Based Biosensor for Kinase Activity Measurements",

abstract = "An electrochemical biosensor has been developed for ultrasensitive, label-free determination of protein kinase activity. The sensor is composed of a unique peptide monolayer on a gold electrode. It identifies the order change in the monolayer upon phosphorylation, via square wave voltametry (SWV) measurements. Disorder caused by the introduction of the phosphate groups onto the middle of the peptide sequence results in pinhole for-mation and therefore an increase in the electrochemical signal. The measured sensitivity was 100 nM of kinase and the dynamic range was 100 nM up to 11 lM. Sensitivity was an order of magnitude higher, and the dynamic range wider by two orders of magnitude, as compared to our previously reported impedimetric method, in which the sensitivity was 1 lM, and the dynamic range was 1– 20 lM.",

keywords = "electrochemistry, kinase biosensor, peptide monolayer",

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AU - Snir, Elza

AU - Amit, Einav

AU - Friedler, Assaf

AU - Yitzchaik, Shlomo

PY - 2015/9

Y1 - 2015/9

N2 - An electrochemical biosensor has been developed for ultrasensitive, label-free determination of protein kinase activity. The sensor is composed of a unique peptide monolayer on a gold electrode. It identifies the order change in the monolayer upon phosphorylation, via square wave voltametry (SWV) measurements. Disorder caused by the introduction of the phosphate groups onto the middle of the peptide sequence results in pinhole for-mation and therefore an increase in the electrochemical signal. The measured sensitivity was 100 nM of kinase and the dynamic range was 100 nM up to 11 lM. Sensitivity was an order of magnitude higher, and the dynamic range wider by two orders of magnitude, as compared to our previously reported impedimetric method, in which the sensitivity was 1 lM, and the dynamic range was 1– 20 lM.

AB - An electrochemical biosensor has been developed for ultrasensitive, label-free determination of protein kinase activity. The sensor is composed of a unique peptide monolayer on a gold electrode. It identifies the order change in the monolayer upon phosphorylation, via square wave voltametry (SWV) measurements. Disorder caused by the introduction of the phosphate groups onto the middle of the peptide sequence results in pinhole for-mation and therefore an increase in the electrochemical signal. The measured sensitivity was 100 nM of kinase and the dynamic range was 100 nM up to 11 lM. Sensitivity was an order of magnitude higher, and the dynamic range wider by two orders of magnitude, as compared to our previously reported impedimetric method, in which the sensitivity was 1 lM, and the dynamic range was 1– 20 lM.

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JO - Biopolymers

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A Highly Sensitive Square Wave Voltammetry Based Biosensor for Kinase Activity Measurements

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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