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Enhanced avidity from a multivalent fluorescent antimicrobial peptide enables pathogen detection in a human lung model.

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Enhanced avidity from a multivalent fluorescent antimicrobial peptide enables pathogen detection in a human lung model. / Akram, Ahsan; Avlonitis, Nicolaos; Scholefield, Emma; Vendrell Escobar, Marc; McDonald, Neil; Aslam, Tashfeen; Craven, Thomas; Gray, Calum; Collie, Donald; Fisher, Andrew J ; Corris, Paul; Walsh, Tim; Haslett, Christopher; Bradley, Mark; Dhaliwal, Kanwaldeep.

In: Scientific Reports, 10.06.2019.

Research output: Contribution to journalArticle

Harvard

Akram, A, Avlonitis, N, Scholefield, E, Vendrell Escobar, M, McDonald, N, Aslam, T, Craven, T, Gray, C, Collie, D, Fisher, AJ, Corris, P, Walsh, T, Haslett, C, Bradley, M & Dhaliwal, K 2019, 'Enhanced avidity from a multivalent fluorescent antimicrobial peptide enables pathogen detection in a human lung model.', Scientific Reports. https://doi.org/10.1038/s41598-019-44804-0

APA

Akram, A., Avlonitis, N., Scholefield, E., Vendrell Escobar, M., McDonald, N., Aslam, T., ... Dhaliwal, K. (2019). Enhanced avidity from a multivalent fluorescent antimicrobial peptide enables pathogen detection in a human lung model. Scientific Reports. https://doi.org/10.1038/s41598-019-44804-0

Vancouver

Akram A, Avlonitis N, Scholefield E, Vendrell Escobar M, McDonald N, Aslam T et al. Enhanced avidity from a multivalent fluorescent antimicrobial peptide enables pathogen detection in a human lung model. Scientific Reports. 2019 Jun 10. https://doi.org/10.1038/s41598-019-44804-0

Author

Akram, Ahsan ; Avlonitis, Nicolaos ; Scholefield, Emma ; Vendrell Escobar, Marc ; McDonald, Neil ; Aslam, Tashfeen ; Craven, Thomas ; Gray, Calum ; Collie, Donald ; Fisher, Andrew J ; Corris, Paul ; Walsh, Tim ; Haslett, Christopher ; Bradley, Mark ; Dhaliwal, Kanwaldeep. / Enhanced avidity from a multivalent fluorescent antimicrobial peptide enables pathogen detection in a human lung model. In: Scientific Reports. 2019.