Cao K, Fang Y, Wang H, Jiang Z, Guo L, Hu Y. Cancer Manag Res. 2019;11:4505–4518.
The authors have advised due to an error at the time of figure assembly, on page 4512 is incorrect. The correct is shown below.
Figure 3 HOXA11-AS could promote the migration and invasion of OS. (A) The HOXA11-AS expression level decreased significantly in MG-63 cells after HOXA11-AS siRNA was transfected into cells (**P<0.01); The HOXA11-AS expression level increased significantly in KHOS cells after pcDNA-HOXA11-AS was transfected into cells (**P<0.01). (B) The invasion ability of MG-63 cells decreased significantly after HOXA11-AS siRNA inhibited HOXA11-AS expression, the invasion of KHOS cells increased significantly after KHOS cells overexpressed HOXA11-AS (**P<0.01). (C) The migration ability of MG-63 cells decreased significantly after HOXA11-AS siRNA inhibited HOXA11-AS expression, the migration of KHOS cells increased significantly after KHOS cells overexpressed HOXA11-AS (**P<0.01).
![Figure 3 HOXA11-AS could promote the migration and invasion of OS. (A) The HOXA11-AS expression level decreased significantly in MG-63 cells after HOXA11-AS siRNA was transfected into cells (**P<0.01); The HOXA11-AS expression level increased significantly in KHOS cells after pcDNA-HOXA11-AS was transfected into cells (**P<0.01). (B) The invasion ability of MG-63 cells decreased significantly after HOXA11-AS siRNA inhibited HOXA11-AS expression, the invasion of KHOS cells increased significantly after KHOS cells overexpressed HOXA11-AS (**P<0.01). (C) The migration ability of MG-63 cells decreased significantly after HOXA11-AS siRNA inhibited HOXA11-AS expression, the migration of KHOS cells increased significantly after KHOS cells overexpressed HOXA11-AS (**P<0.01).](/cms/asset/2f60e0e5-97cd-4a52-b850-096dfb1eed2d/dcmr_a_12190102_f0001_c.jpg)
The authors apologize for this error and advise it does not affect the results of the paper.