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Antioxidants
Volume 12
Issue 7
10.3390/antiox12071415
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Correction to Antioxidants 2021, 10(12), 1954.
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Correction

Correction: Kim et al. Mito-TIPTP Increases Mitochondrial Function by Repressing the Rubicon-p22phox Interaction in Colitis-Induced Mice. Antioxidants 2021, 10, 1954

by
Jae-Sung Kim
1,2,†,
Ye-Ram Kim
1,†,
Sein Jang
3,4,†,
Sang Geon Wang
3,5,†,
Euni Cho
1,3,
Seok-Jun Mun
1,3,
Hye-In Jeon
3,4,
Hyo-Keun Kim
3,4,
Sun-Joon Min
3,5,6,* and
Chul-Su Yang
3,4,*
1
Department of Bionano Technology, Hanyang University, Seoul 04673, Republic of Korea
2
Institute of Natural Science & Technology, Hanyang University, Ansan 15588, Republic of Korea
3
Center for Bionano Intelligence Education and Research, Ansan 15588, Republic of Korea
4
Department of Molecular and Life Science, Hanyang University, Ansan 15588, Republic of Korea
5
Department of Applied Chemistry, Hanyang University, Ansan 15588, Republic of Korea
6
Department of Chemical & Molecular Engineering, Hanyang University, Ansan 15588, Republic of Korea
*
Authors to whom correspondence should be addressed.
These authors contributed equally to this work.
Antioxidants 2023, 12(7), 1415; https://doi.org/10.3390/antiox12071415
Submission received: 23 June 2023 / Accepted: 6 July 2023 / Published: 13 July 2023
Browse Figure
Versions Notes
In the original publication [1], there was a mistake in Figure 7. Results figures from Figure 6D,H have been inserted in Figure 7. The corrected Figure 7 appears 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. Kim, J.-S.; Kim, Y.-R.; Jang, S.; Wang, S.G.; Cho, E.; Mun, S.-J.; Jeon, H.-I.; Kim, H.-K.; Min, S.-J.; Yang, C.-S. Mito-TIPTP Increases Mitochondrial Function by Repressing the Rubicon-p22phox Interaction in Colitis-Induced Mice. Antioxidants 2021, 10, 1954. [Google Scholar] [CrossRef] [PubMed]
Antioxidants 12 01415 g001 550
Figure 7. Mito−TIPTP alleviates chronic DSS−induced colitis in mice. (A) Schematic of the chronic colitis model treated 2.5% DSS with Mito−TIPTP (50 ng/kg). (B) The survival of mice was monitored for 9 weeks; mortality was measured for n = 15 mice per group. (C) Weight loss of vehicle or Mito−TIPTP in mice (n = 15). (D) Image (up) and length (down) of colon in 2.5% DSS−induced chronic colitis mice with vehicle or Mito−TIPTP. (E) Representative imaging of H&E staining of the colon (left) (n = 8). Histopathology scores were obtained from H&E staining were determined in 2.5% DSS−induced chronic colitis mice with vehicle or Mito−TIPTP. Scale bar, 100 μm. Statistical significance was determined by Student’s t−test with Bonferroni adjustment (*** p < 0.001) compared with vehicle.
Figure 7. Mito−TIPTP alleviates chronic DSS−induced colitis in mice. (A) Schematic of the chronic colitis model treated 2.5% DSS with Mito−TIPTP (50 ng/kg). (B) The survival of mice was monitored for 9 weeks; mortality was measured for n = 15 mice per group. (C) Weight loss of vehicle or Mito−TIPTP in mice (n = 15). (D) Image (up) and length (down) of colon in 2.5% DSS−induced chronic colitis mice with vehicle or Mito−TIPTP. (E) Representative imaging of H&E staining of the colon (left) (n = 8). Histopathology scores were obtained from H&E staining were determined in 2.5% DSS−induced chronic colitis mice with vehicle or Mito−TIPTP. Scale bar, 100 μm. Statistical significance was determined by Student’s t−test with Bonferroni adjustment (*** p < 0.001) compared with vehicle.
Antioxidants 12 01415 g001
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Share and Cite

MDPI and ACS Style

Kim, J.-S.; Kim, Y.-R.; Jang, S.; Wang, S.G.; Cho, E.; Mun, S.-J.; Jeon, H.-I.; Kim, H.-K.; Min, S.-J.; Yang, C.-S. Correction: Kim et al. Mito-TIPTP Increases Mitochondrial Function by Repressing the Rubicon-p22phox Interaction in Colitis-Induced Mice. Antioxidants 2021, 10, 1954. Antioxidants 2023, 12, 1415. https://doi.org/10.3390/antiox12071415

AMA Style

Kim J-S, Kim Y-R, Jang S, Wang SG, Cho E, Mun S-J, Jeon H-I, Kim H-K, Min S-J, Yang C-S. Correction: Kim et al. Mito-TIPTP Increases Mitochondrial Function by Repressing the Rubicon-p22phox Interaction in Colitis-Induced Mice. Antioxidants 2021, 10, 1954. Antioxidants. 2023; 12(7):1415. https://doi.org/10.3390/antiox12071415

Chicago/Turabian Style

Kim, Jae-Sung, Ye-Ram Kim, Sein Jang, Sang Geon Wang, Euni Cho, Seok-Jun Mun, Hye-In Jeon, Hyo-Keun Kim, Sun-Joon Min, and Chul-Su Yang. 2023. "Correction: Kim et al. Mito-TIPTP Increases Mitochondrial Function by Repressing the Rubicon-p22phox Interaction in Colitis-Induced Mice. Antioxidants 2021, 10, 1954" Antioxidants 12, no. 7: 1415. https://doi.org/10.3390/antiox12071415

APA Style

Kim, J. -S., Kim, Y. -R., Jang, S., Wang, S. G., Cho, E., Mun, S. -J., Jeon, H. -I., Kim, H. -K., Min, S. -J., & Yang, C. -S. (2023). Correction: Kim et al. Mito-TIPTP Increases Mitochondrial Function by Repressing the Rubicon-p22phox Interaction in Colitis-Induced Mice. Antioxidants 2021, 10, 1954. Antioxidants, 12(7), 1415. https://doi.org/10.3390/antiox12071415

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