The genome and transcriptome of Japanese flounder provide insights into flatfish asymmetry

Changwei Shao; Baolong Bao; Zhiyuan Xie; Xinye Chen; Bo Li; Xiaodong Jia; Qiulin Yao; Guillermo Ortí; Wenhui Li; Xihong Li; Kristin Hamre; Juan Xu; Lei Wang; Fangyuan Chen; Yongsheng Tian; Alex M Schreiber; Na Wang; Fen Wei; Jilin Zhang; Zhongdian Dong; Lei Gao; Junwei Gai; Takashi Sakamoto; Sudong Mo; Wenjun Chen; Qiong Shi; Hui Li; Yunji Xiu; Yangzhen Li; Wenteng Xu; Zhiyi Shi; Guojie Zhang; Deborah M Power; Qingyin Wang; Manfred Schartl; Songlin Chen

doi:10.1038/ng.3732

The genome and transcriptome of Japanese flounder provide insights into flatfish asymmetry

Changwei Shao (Co-first Author)
, Baolong Bao (Co-first Author)
, Zhiyuan Xie (Co-first Author)
, Xinye Chen (Co-first Author)
, Bo Li (Co-first Author)
, Xiaodong Jia (Co-first Author)
, Qiulin Yao
, Guillermo Ortí
, Wenhui Li
, Xihong Li
, Kristin Hamre
, Juan Xu
, Lei Wang
, Fangyuan Chen
, Yongsheng Tian
, Alex M Schreiber
, Na Wang
, Fen Wei
, Jilin Zhang
, Zhongdian Dong

Lei Gao, Junwei Gai, Takashi Sakamoto, Sudong Mo, Wenjun Chen, Qiong Shi, Hui Li, Yunji Xiu, Yangzhen Li, Wenteng Xu, Zhiyi Shi, Guojie Zhang, Deborah M Power^*, Qingyin Wang^*, Manfred Schartl^*, Songlin Chen^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

206 Citations (Scopus)

51 Downloads (CityUHK Scholars)

Abstract

Flatfish have the most extreme asymmetric body morphology of vertebrates. During metamorphosis, one eye migrates to the contralateral side of the skull, and this migration is accompanied by extensive craniofacial transformations and simultaneous development of lopsided body pigmentation. The evolution of this developmental and physiological innovation remains enigmatic. Comparative genomics of two flatfish and transcriptomic analyses during metamorphosis point to a role for thyroid hormone and retinoic acid signaling, as well as phototransduction pathways. We demonstrate that retinoic acid is critical in establishing asymmetric pigmentation and, via cross-talk with thyroid hormones, in modulating eye migration. The unexpected expression of the visual opsins from the phototransduction pathway in the skin translates illumination differences and generates retinoic acid gradients that underlie the generation of asymmetry. Identifying the genetic underpinning of this unique developmental process answers long-standing questions about the evolutionary origin of asymmetry, but it also provides insight into the mechanisms that control body shape in vertebrates.

Original language	English
Pages (from-to)	119-124
Journal	Nature Genetics
Volume	49
Issue number	1
DOIs	https://doi.org/10.1038/ng.3732
Publication status	Published - 1 Jan 2017
Externally published	Yes

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@article{d26067b65f324b1f9a3f4e0cc99180c9,

title = "The genome and transcriptome of Japanese flounder provide insights into flatfish asymmetry",

abstract = "Flatfish have the most extreme asymmetric body morphology of vertebrates. During metamorphosis, one eye migrates to the contralateral side of the skull, and this migration is accompanied by extensive craniofacial transformations and simultaneous development of lopsided body pigmentation. The evolution of this developmental and physiological innovation remains enigmatic. Comparative genomics of two flatfish and transcriptomic analyses during metamorphosis point to a role for thyroid hormone and retinoic acid signaling, as well as phototransduction pathways. We demonstrate that retinoic acid is critical in establishing asymmetric pigmentation and, via cross-talk with thyroid hormones, in modulating eye migration. The unexpected expression of the visual opsins from the phototransduction pathway in the skin translates illumination differences and generates retinoic acid gradients that underlie the generation of asymmetry. Identifying the genetic underpinning of this unique developmental process answers long-standing questions about the evolutionary origin of asymmetry, but it also provides insight into the mechanisms that control body shape in vertebrates.",

author = "Changwei Shao and Baolong Bao and Zhiyuan Xie and Xinye Chen and Bo Li and Xiaodong Jia and Qiulin Yao and Guillermo Ort{\'i} and Wenhui Li and Xihong Li and Kristin Hamre and Juan Xu and Lei Wang and Fangyuan Chen and Yongsheng Tian and Schreiber, \{Alex M\} and Na Wang and Fen Wei and Jilin Zhang and Zhongdian Dong and Lei Gao and Junwei Gai and Takashi Sakamoto and Sudong Mo and Wenjun Chen and Qiong Shi and Hui Li and Yunji Xiu and Yangzhen Li and Wenteng Xu and Zhiyi Shi and Guojie Zhang and Power, \{Deborah M\} and Qingyin Wang and Manfred Schartl and Songlin Chen",

note = "Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].",

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Shao, C, Bao, B, Xie, Z, Chen, X, Li, B, Jia, X, Yao, Q, Ortí, G, Li, W, Li, X, Hamre, K, Xu, J, Wang, L, Chen, F, Tian, Y, Schreiber, AM, Wang, N, Wei, F, Zhang, J, Dong, Z, Gao, L, Gai, J, Sakamoto, T, Mo, S, Chen, W, Shi, Q, Li, H, Xiu, Y, Li, Y, Xu, W, Shi, Z, Zhang, G, Power, DM, Wang, Q, Schartl, M & Chen, S 2017, 'The genome and transcriptome of Japanese flounder provide insights into flatfish asymmetry', Nature Genetics, vol. 49, no. 1, pp. 119-124. https://doi.org/10.1038/ng.3732

TY - JOUR

T1 - The genome and transcriptome of Japanese flounder provide insights into flatfish asymmetry

AU - Shao, Changwei

AU - Bao, Baolong

AU - Xie, Zhiyuan

AU - Chen, Xinye

AU - Li, Bo

AU - Jia, Xiaodong

AU - Yao, Qiulin

AU - Ortí, Guillermo

AU - Li, Wenhui

AU - Li, Xihong

AU - Hamre, Kristin

AU - Xu, Juan

AU - Wang, Lei

AU - Chen, Fangyuan

AU - Tian, Yongsheng

AU - Schreiber, Alex M

AU - Wang, Na

AU - Wei, Fen

AU - Zhang, Jilin

AU - Dong, Zhongdian

AU - Gao, Lei

AU - Gai, Junwei

AU - Sakamoto, Takashi

AU - Mo, Sudong

AU - Chen, Wenjun

AU - Shi, Qiong

AU - Li, Hui

AU - Xiu, Yunji

AU - Li, Yangzhen

AU - Xu, Wenteng

AU - Shi, Zhiyi

AU - Zhang, Guojie

AU - Power, Deborah M

AU - Wang, Qingyin

AU - Schartl, Manfred

AU - Chen, Songlin

N1 - Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Flatfish have the most extreme asymmetric body morphology of vertebrates. During metamorphosis, one eye migrates to the contralateral side of the skull, and this migration is accompanied by extensive craniofacial transformations and simultaneous development of lopsided body pigmentation. The evolution of this developmental and physiological innovation remains enigmatic. Comparative genomics of two flatfish and transcriptomic analyses during metamorphosis point to a role for thyroid hormone and retinoic acid signaling, as well as phototransduction pathways. We demonstrate that retinoic acid is critical in establishing asymmetric pigmentation and, via cross-talk with thyroid hormones, in modulating eye migration. The unexpected expression of the visual opsins from the phototransduction pathway in the skin translates illumination differences and generates retinoic acid gradients that underlie the generation of asymmetry. Identifying the genetic underpinning of this unique developmental process answers long-standing questions about the evolutionary origin of asymmetry, but it also provides insight into the mechanisms that control body shape in vertebrates.

AB - Flatfish have the most extreme asymmetric body morphology of vertebrates. During metamorphosis, one eye migrates to the contralateral side of the skull, and this migration is accompanied by extensive craniofacial transformations and simultaneous development of lopsided body pigmentation. The evolution of this developmental and physiological innovation remains enigmatic. Comparative genomics of two flatfish and transcriptomic analyses during metamorphosis point to a role for thyroid hormone and retinoic acid signaling, as well as phototransduction pathways. We demonstrate that retinoic acid is critical in establishing asymmetric pigmentation and, via cross-talk with thyroid hormones, in modulating eye migration. The unexpected expression of the visual opsins from the phototransduction pathway in the skin translates illumination differences and generates retinoic acid gradients that underlie the generation of asymmetry. Identifying the genetic underpinning of this unique developmental process answers long-standing questions about the evolutionary origin of asymmetry, but it also provides insight into the mechanisms that control body shape in vertebrates.

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U2 - 10.1038/ng.3732

DO - 10.1038/ng.3732

M3 - RGC 21 - Publication in refereed journal

C2 - 27918537

SN - 1061-4036

VL - 49

SP - 119

EP - 124

JO - Nature Genetics

JF - Nature Genetics

IS - 1

ER -

The genome and transcriptome of Japanese flounder provide insights into flatfish asymmetry

Abstract

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