Discrimination of pathogenic bacteria with boronic acid modified protonated g-C3N4 nanosheets at various pHs

•A sensing array for pathogenic bacteria discrimination was constructed based on boronic acid-functionalized g-C3N4 nanosheets.•Different acidities was used as sensing elements and the fluorescence of (+)BA-g-CN nanosheets was used as indicator.•Nine types of bacteria can be well discriminated at co...

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Bibliographic Details
Published inSensors and actuators. B, Chemical Vol. 340; p. 129951
Main Authors Yang, Jian-Yu, Jia, Xin-Di, Gao, Rui-Xue, Chen, Ming-Li, Yang, Ting, Wang, Jian-Hua
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.08.2021
Elsevier Science Ltd
Subjects
Antibiotics
Arrays
Bacteria
Bacteria discrimination
Boronic acid
Carbohydrates
Carbon nitride
Discriminant analysis
Discrimination
Fluorescence
Gram-positive bacteria
Graphitic carbon nitride nanosheets
Nanosheets
Sensing array
Graphitic carbon nitride nanosheets
Boronic acid
Sensing array
Bacteria discrimination
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Summary:•A sensing array for pathogenic bacteria discrimination was constructed based on boronic acid-functionalized g-C3N4 nanosheets.•Different acidities was used as sensing elements and the fluorescence of (+)BA-g-CN nanosheets was used as indicator.•Nine types of bacteria can be well discriminated at concentration as low as OD600=0.01.•The introduction of boronic acid improved the discrimination ability of the array sensor.5. The discrimination of bacteria at different growth periods was realized. Rapid and accurate identification of pathogenic bacteria remains a major challenge, especially for antibiotic-resistant bacteria. In this work, a novel sensing array for the discrimination of pathogenic bacteria based on the distinctive properties of boronic acid-functionalized graphitic carbon nitride nanosheets ((+)BA-g-CN) at various acidities was constructed. Bacteria cells were attached on (+)BA-g-CN either through the electrostatic interaction or the affinity between boronic acid on the nanosheets and saccharide unit on the surface of pathogenic bacteria at various pHs. Both of these interactions can lead to the sedimentation of the composites of bacteria- (+)BA-g-CN, causing the decrement in fluorescence intensity of the supernatant. For different types of bacteria, the degree of fluorescence decrement varies at various pHs, which provides a promising way for the discrimination of pathogenic bacteria. Nine types of pathogenic bacteria, i.e., six kinds of Gram-negative bacteria and three kinds of Gram-positive bacteria were well discriminated by the sensing array with linear discriminant analysis (LDA) at OD600 = 0.01. Its practical application is further demonstrated by the identification of different growth stages of bacteria and the discrimination of pathogenic bacteria in human urine.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2021.129951