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Correction to Int. J. Mol. Sci. 2022, 23(22), 14029.
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Correction

Correction: Zhao et al. Transcription Factor IAA27 Positively Regulates P Uptake through Promoted Adventitious Root Development in Apple Plants. Int. J. Mol. Sci. 2022, 23, 14029

by
Shuo Zhao
1,2,
Xuewen Zhao
1,2,
Xuefeng Xu
1,2,
Zhenhai Han
1,2,* and
Changpeng Qiu
1,2,*
1
College of Horticulture, China Agricultural University, Beijing 100193, China
2
Key Laboratory of Stress Physiology and Molecular Biology for Fruit Trees in Beijing Municipality, China Agricultural University, Beijing 100193, China
*
Authors to whom correspondence should be addressed.
Int. J. Mol. Sci. 2025, 26(14), 6739; https://doi.org/10.3390/ijms26146739
Submission received: 23 June 2025 / Accepted: 2 July 2025 / Published: 14 July 2025
(This article belongs to the Section Molecular Plant Sciences)
Browse Figures
Versions Notes
In the original publication [1], there was a mistake in Figures 1D, 8A and 9B, as published. The authors sincerely apologize for this oversight and confirm that these errors were caused by a software layout problem and unintentional uploading of representative images.
The corrected “Figure 1, Figure 8 and Figure 9” appear below. The authors state that the scientific conclusions are unaffected. This correction was approved by the Academic Editor. The original publication has also been updated.

Reference

  1. Zhao, S.; Zhao, X.; Xu, X.; Han, Z.; Qiu, C. Transcription Factor IAA27 Positively Regulates P Uptake through Promoted Adventitious Root Development in Apple Plants. Int. J. Mol. Sci. 2022, 23, 14029. [Google Scholar] [CrossRef] [PubMed]
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Figure 1. Identification of IAA27 related to root development in the parents ‘BC’ and ‘M9’ and their progenies. (A) Variation in the IAA27 CDS sequence of the parents ‘BC’ and ‘M9’. (B) Amino acid sequence analysis of IAA27 transcription factors. (C) Phenotypes of adventitious roots from six progenies crossed from ‘BC’ and ‘M9’. The progenies were harvested for adventitious root trait analysis at 30 days after cutting. Scale bars: 5 cm. (D) After low phosphorus treatment for 30 days, adventitious roots of progenies were photographed. Scale bars: 5 cm.
Figure 1. Identification of IAA27 related to root development in the parents ‘BC’ and ‘M9’ and their progenies. (A) Variation in the IAA27 CDS sequence of the parents ‘BC’ and ‘M9’. (B) Amino acid sequence analysis of IAA27 transcription factors. (C) Phenotypes of adventitious roots from six progenies crossed from ‘BC’ and ‘M9’. The progenies were harvested for adventitious root trait analysis at 30 days after cutting. Scale bars: 5 cm. (D) After low phosphorus treatment for 30 days, adventitious roots of progenies were photographed. Scale bars: 5 cm.
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Figure 8. MdARFs directly bind to the promoter of MdSAUR76 and MdLBD16. (A) Results of the Y1H, showing MdARF8, MdARF26, and MdARF27 binding to the MdSAUR76 and MdLBD16 promoter. (BE) Effect of MdARFs on the regulation of the MdSAUR76 and MdLBD16 promoter in tobacco leaves and LUC/REN ratio analysis. Red color represents a stronger signal, and violet color represents a weaker signal. Error bars indicate standard deviations (s.d.) from three biological replicates. These assays were repeated three times with the same results. Different letters represent significant differences (p < 0.05).
Figure 8. MdARFs directly bind to the promoter of MdSAUR76 and MdLBD16. (A) Results of the Y1H, showing MdARF8, MdARF26, and MdARF27 binding to the MdSAUR76 and MdLBD16 promoter. (BE) Effect of MdARFs on the regulation of the MdSAUR76 and MdLBD16 promoter in tobacco leaves and LUC/REN ratio analysis. Red color represents a stronger signal, and violet color represents a weaker signal. Error bars indicate standard deviations (s.d.) from three biological replicates. These assays were repeated three times with the same results. Different letters represent significant differences (p < 0.05).
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Figure 9. Interaction of MdIAA27 with the promoter of MdSAUR76. (A) Schematic diagram of the MdSAUR76 promoter region; (B) Y1H confirmation of the binding of MdSAUR76 promoter P2 and P3 fragments by MdARF27; (C) EMSA assay showing that MdARF27 could directly bind to the promoters of MdSAUR76 (P2 and P3). The plus and minus signs indicate the presence or absence of that protein, respectively.
Figure 9. Interaction of MdIAA27 with the promoter of MdSAUR76. (A) Schematic diagram of the MdSAUR76 promoter region; (B) Y1H confirmation of the binding of MdSAUR76 promoter P2 and P3 fragments by MdARF27; (C) EMSA assay showing that MdARF27 could directly bind to the promoters of MdSAUR76 (P2 and P3). The plus and minus signs indicate the presence or absence of that protein, respectively.
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MDPI and ACS Style

Zhao, S.; Zhao, X.; Xu, X.; Han, Z.; Qiu, C. Correction: Zhao et al. Transcription Factor IAA27 Positively Regulates P Uptake through Promoted Adventitious Root Development in Apple Plants. Int. J. Mol. Sci. 2022, 23, 14029. Int. J. Mol. Sci. 2025, 26, 6739. https://doi.org/10.3390/ijms26146739

AMA Style

Zhao S, Zhao X, Xu X, Han Z, Qiu C. Correction: Zhao et al. Transcription Factor IAA27 Positively Regulates P Uptake through Promoted Adventitious Root Development in Apple Plants. Int. J. Mol. Sci. 2022, 23, 14029. International Journal of Molecular Sciences. 2025; 26(14):6739. https://doi.org/10.3390/ijms26146739

Chicago/Turabian Style

Zhao, Shuo, Xuewen Zhao, Xuefeng Xu, Zhenhai Han, and Changpeng Qiu. 2025. "Correction: Zhao et al. Transcription Factor IAA27 Positively Regulates P Uptake through Promoted Adventitious Root Development in Apple Plants. Int. J. Mol. Sci. 2022, 23, 14029" International Journal of Molecular Sciences 26, no. 14: 6739. https://doi.org/10.3390/ijms26146739

APA Style

Zhao, S., Zhao, X., Xu, X., Han, Z., & Qiu, C. (2025). Correction: Zhao et al. Transcription Factor IAA27 Positively Regulates P Uptake through Promoted Adventitious Root Development in Apple Plants. Int. J. Mol. Sci. 2022, 23, 14029. International Journal of Molecular Sciences, 26(14), 6739. https://doi.org/10.3390/ijms26146739

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