Nanomaterial biocompatibility and antimicrobial effects on Escherichia coli
The combination of biological technology and physical science in nanobiotechnology opens up a whole new world of biosensors with better specificity, functionality, and sensitivity. Utilization of carbon nanomaterials, e.g., carbon nanotubes (CNTs) and graphene oxide (GO), and metal nanoparticles, e....
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Kulliyyah of Engineering, International Islamic University Malaysia
2016
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my.iium.irep.526952017-02-22T03:07:14Z http://irep.iium.edu.my/52695/ Nanomaterial biocompatibility and antimicrobial effects on Escherichia coli Sanober, Fahmi Ahmad, Siti Khadijah Wan Salim, Wan Wardatul Amani QR Microbiology QR180 Immunology T Technology (General) The combination of biological technology and physical science in nanobiotechnology opens up a whole new world of biosensors with better specificity, functionality, and sensitivity. Utilization of carbon nanomaterials, e.g., carbon nanotubes (CNTs) and graphene oxide (GO), and metal nanoparticles, e.g., gold nanoparticles (AuNPs) and silver nanoparticles (AgNPs), has improved the performance of third-generation biosensors. Nanomaterials in electrochemical biosensors enable fast, selective, and sensitive pathogen detection. However, the relationship between transducer layer and responding cells needs to be understood. Employing nanomaterial on the biosensor transducer layer can significantly affect cell viability owing to cytotoxic and bactericidal properties. Therefore, we studied the response of E. coli to nanomaterials in biosensor development. E. coli were cultured with these nanomaterials separately in Luria-Bertani broth medium. Bacterial cell viability was measured every 2 hours for 12 hours. Biocompatibility and antimicrobial effects were observed and analyzed via the bacterial growth curves. In addition, bacterial cell dry weight was measured after 12 hours of incubation. In terms of biocompatibility and antimicrobial properties, the results clearly prove that CNTs, AgNPs, and AuNPs have bactericidal or antimicrobial properties. On the other hand, GO does not have intrinsic bactericidal, cytotoxic, and/or antibacterial properties and greatly enhances bacterial growth. These significant advances in our knowledge concerning the properties of carbon nanomaterials and metal nanoparticles can guide the selection of appropriate nanomaterials to fabricate the transducer layer of any biosensor. Kulliyyah of Engineering, International Islamic University Malaysia 2016 Conference or Workshop Item REM application/pdf en http://irep.iium.edu.my/52695/7/52695.pdf Sanober, Fahmi and Ahmad, Siti Khadijah and Wan Salim, Wan Wardatul Amani (2016) Nanomaterial biocompatibility and antimicrobial effects on Escherichia coli. In: 4th International Conference on Biotechnology Engineering 2016 (ICBioE 2016), 25th-27th July 2016, Kuala Lumpur. http://www.iium.edu.my/icbioe/2016/ |
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QR Microbiology QR180 Immunology T Technology (General) |
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QR Microbiology QR180 Immunology T Technology (General) Sanober, Fahmi Ahmad, Siti Khadijah Wan Salim, Wan Wardatul Amani Nanomaterial biocompatibility and antimicrobial effects on Escherichia coli |
| description |
The combination of biological technology and physical science in nanobiotechnology opens up a whole new world of biosensors with better specificity, functionality, and sensitivity. Utilization of carbon nanomaterials, e.g., carbon nanotubes (CNTs) and graphene oxide (GO), and metal nanoparticles, e.g., gold nanoparticles (AuNPs) and silver nanoparticles (AgNPs), has improved the performance of third-generation biosensors. Nanomaterials in electrochemical biosensors enable fast, selective, and sensitive pathogen detection. However, the relationship between transducer layer and responding cells needs to be understood. Employing nanomaterial on the biosensor transducer layer can significantly affect cell viability owing to cytotoxic and bactericidal properties. Therefore, we studied the response of E. coli to nanomaterials in biosensor development. E. coli were cultured with these nanomaterials separately in Luria-Bertani broth medium. Bacterial cell viability was measured every 2 hours for 12 hours. Biocompatibility and antimicrobial effects were observed and analyzed via the bacterial growth curves. In addition, bacterial cell dry weight was measured after 12 hours of incubation. In terms of biocompatibility and antimicrobial properties, the results clearly prove that CNTs, AgNPs, and AuNPs have bactericidal or antimicrobial properties. On the other hand, GO does not have intrinsic bactericidal, cytotoxic, and/or antibacterial properties and greatly enhances bacterial growth. These significant advances in our knowledge concerning the properties of carbon nanomaterials and metal nanoparticles can guide the selection of appropriate nanomaterials to fabricate the
transducer layer of any biosensor. |
| format |
Conference or Workshop Item |
| author |
Sanober, Fahmi Ahmad, Siti Khadijah Wan Salim, Wan Wardatul Amani |
| author_facet |
Sanober, Fahmi Ahmad, Siti Khadijah Wan Salim, Wan Wardatul Amani |
| author_sort |
Sanober, Fahmi |
| title |
Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli |
| title_short |
Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli |
| title_full |
Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli |
| title_fullStr |
Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli |
| title_full_unstemmed |
Nanomaterial biocompatibility and antimicrobial effects on
Escherichia coli |
| title_sort |
nanomaterial biocompatibility and antimicrobial effects on
escherichia coli |
| publisher |
Kulliyyah of Engineering, International Islamic University Malaysia |
| publishDate |
2016 |
| url |
http://irep.iium.edu.my/52695/7/52695.pdf http://irep.iium.edu.my/52695/ http://www.iium.edu.my/icbioe/2016/ |
| _version_ |
1643614213401214976 |
| score |
13.160551 |