Author Correction: Exploration of natural red-shifted rhodopsins using a machine learning-based Bayesian experimental design (Communications Biology, (2021), 4, 1, (362), 10.1038/s42003-021-01878-9)

Keiichi Inoue; Masayuki Karasuyama; Ryoko Nakamura; Masae Konno; Daichi Yamada; Kentaro Mannen; Takashi Nagata; Yu Inatsu; Hiromu Yawo; Kei Yura; Oded Béjà; Hideki Kandori; Ichiro Takeuchi

doi:10.1038/s42003-021-02090-5

Author Correction: Exploration of natural red-shifted rhodopsins using a machine learning-based Bayesian experimental design (Communications Biology, (2021), 4, 1, (362), 10.1038/s42003-021-01878-9)

Keiichi Inoue^*, Masayuki Karasuyama, Ryoko Nakamura, Masae Konno, Daichi Yamada, Kentaro Mannen, Takashi Nagata, Yu Inatsu, Hiromu Yawo, Kei Yura, Oded Béjà, Hideki Kandori, Ichiro Takeuchi^*

^*Corresponding author for this work

School of Advanced Science and Engineering

Research output: Contribution to journal › Comment/debate › peer-review

Abstract

The original version of the Article contained an error in the second paragraph of the “Discussion” section. It was stated that “32 out of 39 microbial rhodopsins were found to have red-shifted absorption compared with the base wavelengths of each subfamily of microbial rhodopsins…”. However, after the publication, the authors became aware that the λ_max of BacHR from Rubricoccus marinus (Accession: WP 094550238.1) was previously reported to be 542 nm¹, which is close to the value determined in this study (541 nm). The original version of the Article also contained an error in the fourth paragraph of the “Discussion” section. It was stated that “Four rhodopsins showed red-shifted absorption ≥20 nm than the base wavelength, three of which showed light-driven ion transport function.”. After publication, the authors become aware that ion transport activities of BacHRs from Rubricoccus marinus (Accession: WP 094550238.1) and Rubrivirga marina (Accession: WP 095509924.1) were also previously reported¹.

Original language	English
Article number	532
Journal	Communications Biology
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s42003-021-02090-5
Publication status	Published - 2021 Dec

ASJC Scopus subject areas

Medicine (miscellaneous)
Biochemistry, Genetics and Molecular Biology(all)
Agricultural and Biological Sciences(all)

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Inoue, K., Karasuyama, M., Nakamura, R., Konno, M., Yamada, D., Mannen, K., Nagata, T., Inatsu, Y., Yawo, H., Yura, K., Béjà, O., Kandori, H., & Takeuchi, I. (2021). Author Correction: Exploration of natural red-shifted rhodopsins using a machine learning-based Bayesian experimental design (Communications Biology, (2021), 4, 1, (362), 10.1038/s42003-021-01878-9). Communications Biology, 4(1), Article 532. https://doi.org/10.1038/s42003-021-02090-5

Author Correction: Exploration of natural red-shifted rhodopsins using a machine learning-based Bayesian experimental design (Communications Biology, (2021), 4, 1, (362), 10.1038/s42003-021-01878-9). / Inoue, Keiichi; Karasuyama, Masayuki; Nakamura, Ryoko et al.
In: Communications Biology, Vol. 4, No. 1, 532, 12.2021.

Research output: Contribution to journal › Comment/debate › peer-review

Inoue, K, Karasuyama, M, Nakamura, R, Konno, M, Yamada, D, Mannen, K, Nagata, T, Inatsu, Y, Yawo, H, Yura, K, Béjà, O, Kandori, H & Takeuchi, I 2021, 'Author Correction: Exploration of natural red-shifted rhodopsins using a machine learning-based Bayesian experimental design (Communications Biology, (2021), 4, 1, (362), 10.1038/s42003-021-01878-9)', Communications Biology, vol. 4, no. 1, 532. https://doi.org/10.1038/s42003-021-02090-5

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abstract = "The original version of the Article contained an error in the second paragraph of the “Discussion” section. It was stated that “32 out of 39 microbial rhodopsins were found to have red-shifted absorption compared with the base wavelengths of each subfamily of microbial rhodopsins…”. However, after the publication, the authors became aware that the λmax of BacHR from Rubricoccus marinus (Accession: WP 094550238.1) was previously reported to be 542 nm1, which is close to the value determined in this study (541 nm). The original version of the Article also contained an error in the fourth paragraph of the “Discussion” section. It was stated that “Four rhodopsins showed red-shifted absorption ≥20 nm than the base wavelength, three of which showed light-driven ion transport function.”. After publication, the authors become aware that ion transport activities of BacHRs from Rubricoccus marinus (Accession: WP 094550238.1) and Rubrivirga marina (Accession: WP 095509924.1) were also previously reported1.",

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AU - Inoue, Keiichi

AU - Karasuyama, Masayuki

AU - Nakamura, Ryoko

AU - Konno, Masae

AU - Yamada, Daichi

AU - Mannen, Kentaro

AU - Nagata, Takashi

AU - Inatsu, Yu

AU - Yawo, Hiromu

AU - Yura, Kei

AU - Béjà, Oded

AU - Kandori, Hideki

AU - Takeuchi, Ichiro

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N2 - The original version of the Article contained an error in the second paragraph of the “Discussion” section. It was stated that “32 out of 39 microbial rhodopsins were found to have red-shifted absorption compared with the base wavelengths of each subfamily of microbial rhodopsins…”. However, after the publication, the authors became aware that the λmax of BacHR from Rubricoccus marinus (Accession: WP 094550238.1) was previously reported to be 542 nm1, which is close to the value determined in this study (541 nm). The original version of the Article also contained an error in the fourth paragraph of the “Discussion” section. It was stated that “Four rhodopsins showed red-shifted absorption ≥20 nm than the base wavelength, three of which showed light-driven ion transport function.”. After publication, the authors become aware that ion transport activities of BacHRs from Rubricoccus marinus (Accession: WP 094550238.1) and Rubrivirga marina (Accession: WP 095509924.1) were also previously reported1.

AB - The original version of the Article contained an error in the second paragraph of the “Discussion” section. It was stated that “32 out of 39 microbial rhodopsins were found to have red-shifted absorption compared with the base wavelengths of each subfamily of microbial rhodopsins…”. However, after the publication, the authors became aware that the λmax of BacHR from Rubricoccus marinus (Accession: WP 094550238.1) was previously reported to be 542 nm1, which is close to the value determined in this study (541 nm). The original version of the Article also contained an error in the fourth paragraph of the “Discussion” section. It was stated that “Four rhodopsins showed red-shifted absorption ≥20 nm than the base wavelength, three of which showed light-driven ion transport function.”. After publication, the authors become aware that ion transport activities of BacHRs from Rubricoccus marinus (Accession: WP 094550238.1) and Rubrivirga marina (Accession: WP 095509924.1) were also previously reported1.

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Author Correction: Exploration of natural red-shifted rhodopsins using a machine learning-based Bayesian experimental design (Communications Biology, (2021), 4, 1, (362), 10.1038/s42003-021-01878-9)

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