Khire, T.S.; Gao, W.; Bales, B.; Hsieh, K.; Grossmann, G.; Park, D.J.M.; O’Keefe, C.; Brown-Countess, A.; Peterson, S.; Chen, F.-E.;
et al. Rapid Minimum Inhibitory Concentration (MIC) Analysis Using Lyophilized Reagent Beads in a Novel Multiphase, Single-Vessel Assay. Antibiotics 2023, 12, 1641.
https://doi.org/10.3390/antibiotics12111641
AMA Style
Khire TS, Gao W, Bales B, Hsieh K, Grossmann G, Park DJM, O’Keefe C, Brown-Countess A, Peterson S, Chen F-E,
et al. Rapid Minimum Inhibitory Concentration (MIC) Analysis Using Lyophilized Reagent Beads in a Novel Multiphase, Single-Vessel Assay. Antibiotics. 2023; 12(11):1641.
https://doi.org/10.3390/antibiotics12111641
Chicago/Turabian Style
Khire, Tejas Suresh, Wei Gao, Brian Bales, Kuangwen Hsieh, Greg Grossmann, Dong Jin M. Park, Christine O’Keefe, Arnyah Brown-Countess, Sara Peterson, Fan-En Chen,
and et al. 2023. "Rapid Minimum Inhibitory Concentration (MIC) Analysis Using Lyophilized Reagent Beads in a Novel Multiphase, Single-Vessel Assay" Antibiotics 12, no. 11: 1641.
https://doi.org/10.3390/antibiotics12111641
APA Style
Khire, T. S., Gao, W., Bales, B., Hsieh, K., Grossmann, G., Park, D. J. M., O’Keefe, C., Brown-Countess, A., Peterson, S., Chen, F.-E., Lenigk, R., Trick, A., Wang, T.-H., & Puleo, C.
(2023). Rapid Minimum Inhibitory Concentration (MIC) Analysis Using Lyophilized Reagent Beads in a Novel Multiphase, Single-Vessel Assay. Antibiotics, 12(11), 1641.
https://doi.org/10.3390/antibiotics12111641