Abstract
The original version of this Article contained an error in the first sentence of the second paragraph of the ‘Influence of HLA10 nanomotors on the cells (HUVECs and MCF-7)’ section of the Results, which incorrectly read ‘In order to verify the universality of the formation mechanism of HLAn nanomotors proposed in this case, that is, the positively charged amino-enriched organic substances and the negative carboxyl groups in L-arginine combined through weak electrostatic force to form nanoparticles, three amino-enriched organic compounds (chitosan, (Mw. 5–100 million), polylysine (Mw. 3000–4000), heparin/folic acid (FA) (Mw. 5000–10,000)) were chosen to react with L-arginine, and the morphology/movement behavior of the obtained nanoparticles (named as CLA10 nanomotors, PLA10 nanomotors, HFLA10 nanomotors) were investigated (Fig. 7 and Supplementary Movie 7).’ The correct version states ‘chitosan, (Mw. 3000–6000 Da)’ in place of ‘chitosan, (Mw. 5–100 million)’. This has been corrected in both the PDF and HTML versions of the Article.
Highlights
The original version of this Article contained an error in the first sentence of the second paragraph of the ‘Influence of HLA10 nanomotors on the cells (HUVECs and MCF-7)’ section of the Results, which incorrectly read ‘In order to verify the universality of the formation mechanism of HLAn nanomotors proposed in this case, that is, the positively charged amino-enriched organic substances and the negative carboxyl groups in L-arginine combined through weak electrostatic force to form nanoparticles, three amino-enriched organic compounds (chitosan, (Mw. 5–100 million), polylysine (Mw. 3000–4000), heparin/folic acid (FA) (Mw. 5000–10,000)) were chosen to react with L-arginine, and the morphology/movement behavior of the obtained nanoparticles were investigated (Fig. 7 and Supplementary Movie 7).’
Correspondence and requests for materials should be addressed to C.M
Summary
The original version of this Article contained an error in the first sentence of the second paragraph of the ‘Influence of HLA10 nanomotors on the cells (HUVECs and MCF-7)’ section of the Results, which incorrectly read ‘In order to verify the universality of the formation mechanism of HLAn nanomotors proposed in this case, that is, the positively charged amino-enriched organic substances and the negative carboxyl groups in L-arginine combined through weak electrostatic force to form nanoparticles, three amino-enriched organic compounds (chitosan, (Mw. 5–100 million), polylysine (Mw. 3000–4000), heparin/folic acid (FA) (Mw. 5000–10,000)) were chosen to react with L-arginine, and the morphology/movement behavior of the obtained nanoparticles (named as CLA10 nanomotors, PLA10 nanomotors, HFLA10 nanomotors) were investigated (Fig. 7 and Supplementary Movie 7).’ The correct version states ‘chitosan, (Mw. 3000–6000 Da)’ in place of ‘chitosan, (Mw. 5–100 million)’. Mimi Wan1, Huan Chen1, Qi Wang1, Qian Niu1, Ping Xu1, Yueqi Yu1, Tianyu Zhu1, Chun Mao1 & Jian Shen1
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