Iron Is Involved in the Maintenance of Circadian Period Length in Arabidopsis12[W][OA]

Micronutrient iron regulates the plant circadian clock through a chloroplast retrograde signaling pathway. The homeostasis of iron ( Fe ) in plants is strictly regulated to maintain an optimal level for plant growth and development but not cause oxidative stress. About 30% of arable land is consider...

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Published in:	Plant physiology (Bethesda) Vol. 161; no. 3; pp. 1409 - 1420
Main Authors:	Chen, Yong-Yi, Wang, Ying, Shin, Lung-Jiun, Wu, Jing-Fen, Shanmugam, Varanavasiappan, Tsednee, Munkhtsetseg, Lo, Jing-Chi, Chen, Chyi-Chuann, Wu, Shu-Hsing, Yeh, Kuo-Chen
Format:	Journal Article
Language:	English
Published:	American Society of Plant Biologists 10-01-2013
Subjects:	Signaling and Response
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Abstract	Micronutrient iron regulates the plant circadian clock through a chloroplast retrograde signaling pathway. The homeostasis of iron ( Fe ) in plants is strictly regulated to maintain an optimal level for plant growth and development but not cause oxidative stress. About 30% of arable land is considered Fe deficient because of calcareous soil that renders Fe unavailable to plants. Under Fe -deficient conditions, Arabidopsis ( Arabidopsis thaliana ) shows retarded growth, disordered chloroplast development, and delayed flowering time. In this study, we explored the possible connection between Fe availability and the circadian clock in growth and development. Circadian period length in Arabidopsis was longer under Fe -deficient conditions, but the lengthened period was not regulated by the canonical Fe -deficiency signaling pathway involving nitric oxide. However, plants with impaired chloroplast function showed long circadian periods. Fe deficiency and impaired chloroplast function combined did not show additive effects on the circadian period, which suggests that plastid-to-nucleus retrograde signaling is involved in the lengthening of circadian period under Fe deficiency. Expression pattern analyses of the central oscillator genes in mutants defective in CIRCADIAN CLOCK ASSOCIATED1/LATE ELONGATED HYPOCOTYL or GIGANTEA demonstrated their requirement for Fe deficiency-induced long circadian period. In conclusion, Fe is involved in maintaining the period length of circadian rhythm, possibly by acting on specific central oscillators through a retrograde signaling pathway.
AbstractList	Micronutrient iron regulates the plant circadian clock through a chloroplast retrograde signaling pathway. The homeostasis of iron ( Fe ) in plants is strictly regulated to maintain an optimal level for plant growth and development but not cause oxidative stress. About 30% of arable land is considered Fe deficient because of calcareous soil that renders Fe unavailable to plants. Under Fe -deficient conditions, Arabidopsis ( Arabidopsis thaliana ) shows retarded growth, disordered chloroplast development, and delayed flowering time. In this study, we explored the possible connection between Fe availability and the circadian clock in growth and development. Circadian period length in Arabidopsis was longer under Fe -deficient conditions, but the lengthened period was not regulated by the canonical Fe -deficiency signaling pathway involving nitric oxide. However, plants with impaired chloroplast function showed long circadian periods. Fe deficiency and impaired chloroplast function combined did not show additive effects on the circadian period, which suggests that plastid-to-nucleus retrograde signaling is involved in the lengthening of circadian period under Fe deficiency. Expression pattern analyses of the central oscillator genes in mutants defective in CIRCADIAN CLOCK ASSOCIATED1/LATE ELONGATED HYPOCOTYL or GIGANTEA demonstrated their requirement for Fe deficiency-induced long circadian period. In conclusion, Fe is involved in maintaining the period length of circadian rhythm, possibly by acting on specific central oscillators through a retrograde signaling pathway.
Author	Shin, Lung-Jiun Wu, Jing-Fen Chen, Yong-Yi Wu, Shu-Hsing Chen, Chyi-Chuann Wang, Ying Tsednee, Munkhtsetseg Yeh, Kuo-Chen Lo, Jing-Chi Shanmugam, Varanavasiappan
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Copyright	2013 American Society of Plant Biologists. All Rights Reserved. 2013
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Notes	This article is dedicated to the memory of Yong-Yi Chen, a talented young scientist who died recently. www.plantphysiol.org/cgi/doi/10.1104/pp.112.212068 The online version of this article contains Web-only data. The author responsible for distribution of materials integral to the findings presented in this article in accordance with the policy described in the Instructions for Authors (www.plantphysiol.org) is: Kuo-Chen Yeh (kcyeh@gate.sinica.edu.tw). Open Access articles can be viewed online without a subscription. This work was supported by Academia Sinica, Taiwan.
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Title	Iron Is Involved in the Maintenance of Circadian Period Length in Arabidopsis12[W][OA]
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