The threat to public health from bacterial infections has led to an urgent need to develop simpler,faster and more reliable bacterial detection methods.In this work,we developed a universal dual-recognition based sand...The threat to public health from bacterial infections has led to an urgent need to develop simpler,faster and more reliable bacterial detection methods.In this work,we developed a universal dual-recognition based sandwich fluorescence resonance energy transfer(FRET)sensor by using specific aptamer-modified quantum dots(Aptamer-QDs)as energy donor and lectin concanavalin A(Con A)modified gold nanoparticles(Con A-AuNPs)as energy acceptor to achieve rapid and sensitive detection of Escherichia coli(E.coli)within 0.5 h.In the presence of the target E.coli,the energy donor of Aptamer-QDs and acceptor of Con A-AuNPs were close to each other,causing changes of FRET signals.Based on the constructed FRET sensor,a linear detection range of from 10^(2)cfu/mL to 2×10^(8)cfu/mL with the detection limit of 45 cfu/mL for E.coli was achieved.Furthermore,the FRET sensor was applied to detect E.coli in the milk and orange juice with the detection limit of 300 cfu/mL and 200 cfu/mL,respectively and recovery rate from 83.1%to 112.5%.The strategy holds great promise in pathogenic bacteria detection due to its rapid and sensitivity.展开更多
The detection of bacterial pathogen such as Staphylococcus aureus(S.aureus) is essential for the regulation of food hygiene and disease diagnosis.Herein,we developed a simple one-step fluorescence resonance energy tra...The detection of bacterial pathogen such as Staphylococcus aureus(S.aureus) is essential for the regulation of food hygiene and disease diagnosis.Herein,we developed a simple one-step fluorescence resonance energy transfer(FRET)-based sensor for specific and sensitive detection of S.aureus in food and serum samples,in which aptamer-modified quantum dots(aptamer-QDs) was employed as the energy donor and antibiotic of teicoplanin functionalized-gold nanoparticles(Teico-AuNPs) was chosen as the energy acceptor.Within 1 h,the FRET-based sensor showed a linear range of from 10 cfu/mL to 5 × 10^(8) cfu/mL,with the low limit of detection(LOD,2 cfu/mL) for S.aureus in buffer.When further applied to assay S.aureus in real samples,the FRET-based sensor showed good recoveries ranging from 84.5% to 110.0%,with relative standard derivations(RSDs) of 0.01%-0.44% and a LOD of 100 cfu/mL in milk,orange juice and human serum.展开更多
基金supported by the National Natural Science Foundation of China(Nos.22174116,21974110)Chongqing Science Funds for Distinguished Young Scientists(No.cstc2021jcyjjqx0024)the Innovation Research Group at higher Education Institutions in Chongqing,Chongqing Education Committee(No.CXQT21006).
文摘The threat to public health from bacterial infections has led to an urgent need to develop simpler,faster and more reliable bacterial detection methods.In this work,we developed a universal dual-recognition based sandwich fluorescence resonance energy transfer(FRET)sensor by using specific aptamer-modified quantum dots(Aptamer-QDs)as energy donor and lectin concanavalin A(Con A)modified gold nanoparticles(Con A-AuNPs)as energy acceptor to achieve rapid and sensitive detection of Escherichia coli(E.coli)within 0.5 h.In the presence of the target E.coli,the energy donor of Aptamer-QDs and acceptor of Con A-AuNPs were close to each other,causing changes of FRET signals.Based on the constructed FRET sensor,a linear detection range of from 10^(2)cfu/mL to 2×10^(8)cfu/mL with the detection limit of 45 cfu/mL for E.coli was achieved.Furthermore,the FRET sensor was applied to detect E.coli in the milk and orange juice with the detection limit of 300 cfu/mL and 200 cfu/mL,respectively and recovery rate from 83.1%to 112.5%.The strategy holds great promise in pathogenic bacteria detection due to its rapid and sensitivity.
基金supported by the National Natural Science Foundation of China (Nos.21974110,21575118,21976145 and 31672605)Natural Science Foundation Project of Chongqing (No.CSTC2019jcyj-msxmX0406)。
文摘The detection of bacterial pathogen such as Staphylococcus aureus(S.aureus) is essential for the regulation of food hygiene and disease diagnosis.Herein,we developed a simple one-step fluorescence resonance energy transfer(FRET)-based sensor for specific and sensitive detection of S.aureus in food and serum samples,in which aptamer-modified quantum dots(aptamer-QDs) was employed as the energy donor and antibiotic of teicoplanin functionalized-gold nanoparticles(Teico-AuNPs) was chosen as the energy acceptor.Within 1 h,the FRET-based sensor showed a linear range of from 10 cfu/mL to 5 × 10^(8) cfu/mL,with the low limit of detection(LOD,2 cfu/mL) for S.aureus in buffer.When further applied to assay S.aureus in real samples,the FRET-based sensor showed good recoveries ranging from 84.5% to 110.0%,with relative standard derivations(RSDs) of 0.01%-0.44% and a LOD of 100 cfu/mL in milk,orange juice and human serum.
