Hong W, Liu L, Zhang Z, Zhao Y, Zhang D, Liu M. Int J Nanomedicine. 2018;13:6297–6309.
The authors have advised due to an error that occurred inadvertently at the time of figure assembly, on page 6302 is incorrect. The correct is as follows.
Figure 1 The confocal microscope images of S. pneumonia ATCC 49619 (A) and S. pneumonia 16167 (B) stained by LIVE/DEAD after incubation with PEGylated Nano-BA12K, BA solution, and Penicillin G for 0.5, 1, 2, 4, 8, and 12 hours at 37°C.
![Figure 1 The confocal microscope images of S. pneumonia ATCC 49619 (A) and S. pneumonia 16167 (B) stained by LIVE/DEAD after incubation with PEGylated Nano-BA12K, BA solution, and Penicillin G for 0.5, 1, 2, 4, 8, and 12 hours at 37°C.](/cms/asset/2ca5fce5-7403-4056-b37c-f3aab46a432e/dijn_a_12184896_f0001_c.jpg)
The authors also advised that there are errors in and on page 6306. The correct is as follows.
Figure 7 Cytoplasmic membrane potential variation of S. pneumonia ATCC 49619 (A) and S. pneumonia 16167 (B) treated with PEGylated Nano-BA12K at 1× MICs, as assessed by the release of the membrane potential-sensitive dye disC3-5. The fluorescence intensity was monitored at a λex =622 nm and λem =670 nm as a function of time. Effect of PEGylated Nano-BA12K on the cytoplasmic membrane permeability of S. pneumonia ATCC 49619 (C) and S. pneumonia 16167 (D). PEGylated Nano-BA12K-induced calcein release as a function of time. PEGylated Nano-BA12K was added to PTG/CL SUVs encapsulated with calcein (E). The graphs were derived from average values of three independent trials.
![Figure 7 Cytoplasmic membrane potential variation of S. pneumonia ATCC 49619 (A) and S. pneumonia 16167 (B) treated with PEGylated Nano-BA12K at 1× MICs, as assessed by the release of the membrane potential-sensitive dye disC3-5. The fluorescence intensity was monitored at a λex =622 nm and λem =670 nm as a function of time. Effect of PEGylated Nano-BA12K on the cytoplasmic membrane permeability of S. pneumonia ATCC 49619 (C) and S. pneumonia 16167 (D). PEGylated Nano-BA12K-induced calcein release as a function of time. PEGylated Nano-BA12K was added to PTG/CL SUVs encapsulated with calcein (E). The graphs were derived from average values of three independent trials.](/cms/asset/ec4596c2-02bd-413e-b082-1430de80a87a/dijn_a_12184896_f0002_c.jpg)
The authors apologize for these errors and advise they do not affect the results and conclusions of the paper.