Sensitive Detection of Rosmarinic Acid Using Peptide-Modified Graphene Oxide Screen-Printed Carbon Electrode

Peptides have been used as components in biological analysis and fabrication of novel sensors due to several reasons, including well-known synthesis protocols, diverse structures, and acting as highly selective substrates for enzymes. Bio-conjugation strategies can provide a simple and efficient way...

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Published inNanomaterials (Basel, Switzerland) Vol. 12; no. 19; p. 3292
Main Authors Munteanu, Irina Georgiana, Grădinaru, Vasile Robert, Apetrei, Constantin
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 22.09.2022
MDPI
Subjects
Alzheimer's disease
Amino acids
Analysis
Antimicrobial agents
Biological analysis
Biosensors
Carbon
Chemical synthesis
Chromatography
Conjugation
Crosslinking
cyclic voltammetry
Electric properties
Electrodes
Electrodes, Carbon
Fabrication
Food
Fourier transform infrared spectroscopy
Fourier transforms
Graphene
graphene oxide
Hydration
Hydrogen bonds
Identification and classification
Lymphocyte receptors
Mechanical properties
Methods
Oxides
peptide
Peptides
Polyphenols
Potassium
Rosmarinic acid
sensor
Sensors
Spectrum analysis
Strong interactions (field theory)
Substrates
Voltammetry
Germany
United States > US
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Abstract Peptides have been used as components in biological analysis and fabrication of novel sensors due to several reasons, including well-known synthesis protocols, diverse structures, and acting as highly selective substrates for enzymes. Bio-conjugation strategies can provide a simple and efficient way to convert peptide-analyte interaction information into a measurable signal, which can be further used for the manufacture of new peptide-based biosensors. This paper describes the sensitive properties of a peptide-modified graphene oxide screen-printed carbon electrode for accurate and sensitive detection of a natural polyphenol antioxidant compound, namely rosmarinic acid. Glutaraldehyde was chosen as the cross-linking agent because it is able to bind nonspecifically to the peptide. We demonstrated that the strong interaction between the immobilized peptide on the surface of the sensor and rosmarinic acid favors the addition of rosmarinic acid on the surface of the electrode, leading to an efficient preconcentration that determines a high sensitivity of the sensor for the detection of rosmarinic acid. The experimental conditions were optimized using different pH values and different amounts of peptide to modify the sensor surface, so that its analytical performances were optimal for rosmarinic acid detection. By using cyclic voltammetry (CV) as a detection method, a very low detection limit (0.0966 μM) and a vast linearity domain, ranging from 0.1 µM to 3.20 µM, were obtained. The novelty of this work is the development of a novel peptide-based sensor with improved performance characteristics for the quantification of rosmarinic acid in cosmetic products of complex composition. The FTIR method was used to validate the voltammetric method results.
AbstractList Peptides have been used as components in biological analysis and fabrication of novel sensors due to several reasons, including well-known synthesis protocols, diverse structures, and acting as highly selective substrates for enzymes. Bio-conjugation strategies can provide a simple and efficient way to convert peptide-analyte interaction information into a measurable signal, which can be further used for the manufacture of new peptide-based biosensors. This paper describes the sensitive properties of a peptide-modified graphene oxide screen-printed carbon electrode for accurate and sensitive detection of a natural polyphenol antioxidant compound, namely rosmarinic acid. Glutaraldehyde was chosen as the cross-linking agent because it is able to bind nonspecifically to the peptide. We demonstrated that the strong interaction between the immobilized peptide on the surface of the sensor and rosmarinic acid favors the addition of rosmarinic acid on the surface of the electrode, leading to an efficient preconcentration that determines a high sensitivity of the sensor for the detection of rosmarinic acid. The experimental conditions were optimized using different pH values and different amounts of peptide to modify the sensor surface, so that its analytical performances were optimal for rosmarinic acid detection. By using cyclic voltammetry (CV) as a detection method, a very low detection limit (0.0966 μM) and a vast linearity domain, ranging from 0.1 µM to 3.20 µM, were obtained. The novelty of this work is the development of a novel peptide-based sensor with improved performance characteristics for the quantification of rosmarinic acid in cosmetic products of complex composition. The FTIR method was used to validate the voltammetric method results.
Audience Academic
Author Grădinaru, Vasile Robert
Apetrei, Constantin
Munteanu, Irina Georgiana
AuthorAffiliation 2 Faculty of Chemistry, Alexandru Ioan Cuza University, 11 Carol I Bd., 700506 Iasi, Romania
1 Department of Chemistry, Physics and Environment, Faculty of Sciences and Environment, “Dunărea de Jos” University of Galaţi, 47 Domneasca Street, 800008 Galaţi, Romania
AuthorAffiliation_xml – name: 1 Department of Chemistry, Physics and Environment, Faculty of Sciences and Environment, “Dunărea de Jos” University of Galaţi, 47 Domneasca Street, 800008 Galaţi, Romania
– name: 2 Faculty of Chemistry, Alexandru Ioan Cuza University, 11 Carol I Bd., 700506 Iasi, Romania
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  surname: Munteanu
  fullname: Munteanu, Irina Georgiana
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  givenname: Constantin
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  surname: Apetrei
  fullname: Apetrei, Constantin
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SSID ssj0000913853
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Snippet Peptides have been used as components in biological analysis and fabrication of novel sensors due to several reasons, including well-known synthesis protocols,...
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SubjectTerms Alzheimer's disease
Amino acids
Analysis
Antimicrobial agents
Biological analysis
Biosensors
Carbon
Chemical synthesis
Chromatography
Conjugation
Crosslinking
cyclic voltammetry
Electric properties
Electrodes
Electrodes, Carbon
Fabrication
Food
Fourier transform infrared spectroscopy
Fourier transforms
Graphene
graphene oxide
Hydration
Hydrogen bonds
Identification and classification
Lymphocyte receptors
Mechanical properties
Methods
Oxides
peptide
Peptides
Polyphenols
Potassium
Rosmarinic acid
sensor
Sensors
Spectrum analysis
Strong interactions (field theory)
Substrates
Voltammetry
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Title Sensitive Detection of Rosmarinic Acid Using Peptide-Modified Graphene Oxide Screen-Printed Carbon Electrode
URI https://www.proquest.com/docview/2724272950
https://search.proquest.com/docview/2725195164
https://pubmed.ncbi.nlm.nih.gov/PMC9565883
https://doaj.org/article/d8038e3fc9f44f388449c663c04b1a58
Volume 12
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