Domestication selected for deceleration of the circadian clock in cultivated tomato

Niels A. Müller; Cris L. Wijnen; Arunkumar Srinivasan; Malgorzata Ryngajllo; Itai Ofner; Tao Lin; Aashish Ranjan; Donnelly West; Julin N. Maloof; Neelima R. Sinha; Sanwen Huang; Dani Zamir; José M. Jiménez-Gómez

doi:10.1038/ng.3447

Domestication selected for deceleration of the circadian clock in cultivated tomato

Niels A. Müller
, Cris L. Wijnen
, Arunkumar Srinivasan
, Malgorzata Ryngajllo
, Itai Ofner
, Tao Lin
, Aashish Ranjan
, Donnelly West
, Julin N. Maloof
, Neelima R. Sinha
, Sanwen Huang
, Dani Zamir
, José M. Jiménez-Gómez^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

167 Scopus citations

Abstract

The circadian clock is a critical regulator of plant physiology and development, controlling key agricultural traits in crop plants. In addition, natural variation in circadian rhythms is important for local adaptation. However, quantitative modulation of circadian rhythms due to artificial selection has not yet been reported. Here we show that the circadian clock of cultivated tomato (Solanum lycopersicum) has slowed during domestication. Allelic variation of the tomato homolog of the Arabidopsis gene EID1 is responsible for a phase delay. Notably, the genomic region harboring EID1 shows signatures of a selective sweep. We find that the EID1 allele in cultivated tomatoes enhances plant performance specifically under long day photoperiods, suggesting that humans selected slower circadian rhythms to adapt the cultivated species to the long summer days it encountered as it was moved away from the equator.

Original language	English
Pages (from-to)	89-93
Number of pages	5
Journal	Nature Genetics
Volume	48
Issue number	1
DOIs	https://doi.org/10.1038/ng.3447
State	Published - 29 Dec 2015
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 Nature America, Inc.

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title = "Domestication selected for deceleration of the circadian clock in cultivated tomato",

abstract = "The circadian clock is a critical regulator of plant physiology and development, controlling key agricultural traits in crop plants. In addition, natural variation in circadian rhythms is important for local adaptation. However, quantitative modulation of circadian rhythms due to artificial selection has not yet been reported. Here we show that the circadian clock of cultivated tomato (Solanum lycopersicum) has slowed during domestication. Allelic variation of the tomato homolog of the Arabidopsis gene EID1 is responsible for a phase delay. Notably, the genomic region harboring EID1 shows signatures of a selective sweep. We find that the EID1 allele in cultivated tomatoes enhances plant performance specifically under long day photoperiods, suggesting that humans selected slower circadian rhythms to adapt the cultivated species to the long summer days it encountered as it was moved away from the equator.",

author = "M{\"u}ller, \{Niels A.\} and Wijnen, \{Cris L.\} and Arunkumar Srinivasan and Malgorzata Ryngajllo and Itai Ofner and Tao Lin and Aashish Ranjan and Donnelly West and Maloof, \{Julin N.\} and Sinha, \{Neelima R.\} and Sanwen Huang and Dani Zamir and Jim{\'e}nez-G{\'o}mez, \{Jos{\'e} M.\}",

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AU - Wijnen, Cris L.

AU - Srinivasan, Arunkumar

AU - Ryngajllo, Malgorzata

AU - Ofner, Itai

AU - Lin, Tao

AU - Ranjan, Aashish

AU - West, Donnelly

AU - Maloof, Julin N.

AU - Sinha, Neelima R.

AU - Huang, Sanwen

AU - Zamir, Dani

AU - Jiménez-Gómez, José M.

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AB - The circadian clock is a critical regulator of plant physiology and development, controlling key agricultural traits in crop plants. In addition, natural variation in circadian rhythms is important for local adaptation. However, quantitative modulation of circadian rhythms due to artificial selection has not yet been reported. Here we show that the circadian clock of cultivated tomato (Solanum lycopersicum) has slowed during domestication. Allelic variation of the tomato homolog of the Arabidopsis gene EID1 is responsible for a phase delay. Notably, the genomic region harboring EID1 shows signatures of a selective sweep. We find that the EID1 allele in cultivated tomatoes enhances plant performance specifically under long day photoperiods, suggesting that humans selected slower circadian rhythms to adapt the cultivated species to the long summer days it encountered as it was moved away from the equator.

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Domestication selected for deceleration of the circadian clock in cultivated tomato

Abstract

Bibliographical note

UN SDGs

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