A transgenic zebrafish for in vivo visualization of cilia
Cilia are organelles for cellular signalling and motility. Mutations affecting ciliary function are also associated with cilia-related disorders (ciliopathies). The identification of cilia markers is critical for studying their function at the cellular level. Due to the lack of a conserved, short ci...
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sg-ntu-dr.10356-1654252023-04-02T15:41:30Z A transgenic zebrafish for in vivo visualization of cilia Zhang, Hongyu Huang, Zhuoya Lv, Liuliu Xin, Yuye Wang, Qian Li, Feng Dong, Lina Wu, Changxin Ingham, Philip William Zhao, Zhonghua Lee Kong Chian School of Medicine (LKCMedicine) Science::Biological sciences Transgenic Zebrafish Cilia Cilia are organelles for cellular signalling and motility. Mutations affecting ciliary function are also associated with cilia-related disorders (ciliopathies). The identification of cilia markers is critical for studying their function at the cellular level. Due to the lack of a conserved, short ciliary localization motif, the full-length ARL13b or 5HT6 proteins are normally used for cilia labelling. Overexpression of these genes, however, can affect the function of cilia, leading to artefacts in cilia studies. Here, we show that Nephrocystin-3 (Nphp3) is highly conserved among vertebrates and demonstrate that the N-terminal truncated peptide of zebrafish Nphp3 can be used as a gratuitous cilia-specific marker. To visualize the dynamics of cilia in vivo, we generated a stable transgenic zebrafish Tg (β-actin: nphp3N-mCherry)sx1001. The cilia in multiple cell types are efficiently labelled by the encoded fusion protein from embryonic stages to adulthood, without any developmental and physiological defects. We show that the line allows live imaging of ciliary dynamics and trafficking of cilia proteins, such as Kif7 and Smo, key regulators of the Hedgehog signalling pathway. Thus, we have generated an effective new tool for in vivo cilia studies that will help shed further light on the roles of these important organelles. Published version This work was supported by National Natural Science Foundation of China (No. 31970738), Social Development Foundation of Shanxi (No. 201903D321019), Youth Foundation of Hundred Talents of Shanxi Province, and Fund Program for the Scientific Activities of Selected Returned Oversea Professionals in Shanxi Province, China. 2023-03-27T05:09:16Z 2023-03-27T05:09:16Z 2022 Journal Article Zhang, H., Huang, Z., Lv, L., Xin, Y., Wang, Q., Li, F., Dong, L., Wu, C., Ingham, P. W. & Zhao, Z. (2022). A transgenic zebrafish for in vivo visualization of cilia. Open Biology, 12(8), 220104-. https://dx.doi.org/10.1098/rsob.220104 2046-2441 https://hdl.handle.net/10356/165425 10.1098/rsob.220104 35946311 2-s2.0-85135731743 8 12 220104 en Open Biology © 2022 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited. application/pdf |
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Science::Biological sciences Transgenic Zebrafish Cilia |
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Science::Biological sciences Transgenic Zebrafish Cilia Zhang, Hongyu Huang, Zhuoya Lv, Liuliu Xin, Yuye Wang, Qian Li, Feng Dong, Lina Wu, Changxin Ingham, Philip William Zhao, Zhonghua A transgenic zebrafish for in vivo visualization of cilia |
| description |
Cilia are organelles for cellular signalling and motility. Mutations affecting ciliary function are also associated with cilia-related disorders (ciliopathies). The identification of cilia markers is critical for studying their function at the cellular level. Due to the lack of a conserved, short ciliary localization motif, the full-length ARL13b or 5HT6 proteins are normally used for cilia labelling. Overexpression of these genes, however, can affect the function of cilia, leading to artefacts in cilia studies. Here, we show that Nephrocystin-3 (Nphp3) is highly conserved among vertebrates and demonstrate that the N-terminal truncated peptide of zebrafish Nphp3 can be used as a gratuitous cilia-specific marker. To visualize the dynamics of cilia in vivo, we generated a stable transgenic zebrafish Tg (β-actin: nphp3N-mCherry)sx1001. The cilia in multiple cell types are efficiently labelled by the encoded fusion protein from embryonic stages to adulthood, without any developmental and physiological defects. We show that the line allows live imaging of ciliary dynamics and trafficking of cilia proteins, such as Kif7 and Smo, key regulators of the Hedgehog signalling pathway. Thus, we have generated an effective new tool for in vivo cilia studies that will help shed further light on the roles of these important organelles. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Zhang, Hongyu Huang, Zhuoya Lv, Liuliu Xin, Yuye Wang, Qian Li, Feng Dong, Lina Wu, Changxin Ingham, Philip William Zhao, Zhonghua |
| format |
Article |
| author |
Zhang, Hongyu Huang, Zhuoya Lv, Liuliu Xin, Yuye Wang, Qian Li, Feng Dong, Lina Wu, Changxin Ingham, Philip William Zhao, Zhonghua |
| author_sort |
Zhang, Hongyu |
| title |
A transgenic zebrafish for in vivo visualization of cilia |
| title_short |
A transgenic zebrafish for in vivo visualization of cilia |
| title_full |
A transgenic zebrafish for in vivo visualization of cilia |
| title_fullStr |
A transgenic zebrafish for in vivo visualization of cilia |
| title_full_unstemmed |
A transgenic zebrafish for in vivo visualization of cilia |
| title_sort |
transgenic zebrafish for in vivo visualization of cilia |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165425 |
| _version_ |
1764208164355440640 |