Breeding for delayed bolting decelerated the circadian clock in cultivated lettuce

Cèlia Anton-Sales; Esther S van den Bergh; Alejandro Thérèse-Navarro; Edouard Severing; Daniel Moñino-López; Joseph DiPalma; Marcel Proveniers; C Robertson McClung; Marieke Jeuken; Guusje Bonnema

doi:10.1111/nph.70489

Breeding for delayed bolting decelerated the circadian clock in cultivated lettuce

Cèlia Anton-Sales^*
, Esther S van den Bergh
, Alejandro Thérèse-Navarro
, Edouard Severing
, Daniel Moñino-López
, Joseph DiPalma
, Marcel Proveniers
, C Robertson McClung
, Marieke Jeuken
, Guusje Bonnema

^*Corresponding author for this work

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

Abstract

Circadian clocks pace biological events and influence developmental traits, but their role in leafy crop domestication has remained unexplored. We investigated whether selection for delayed bolting during lettuce domestication targeted clock components. We phenotyped circadian rhythms and developmental timing across 234 cultivated and wild lettuce accessions. Using high-throughput leaf movement tracking, genome-wide association studies (GWAS) and haplotype analyses, we identified genetic variants controlling both the clock period and bolting time. Cultivated lettuce exhibits a significantly longer circadian period than its wild relatives, associated with a truncating mutation in PHYTOCHROME C (PHYC). This allele is not only associated with a decelerated clock but also with delayed bolting and flowering time in multiple field experiments. The truncating PHYC allele (H02) is enriched in modern cultivars and phylogenetically close to the wild ancestor (Lactuca serriola) alleles, indicating an early selection during lettuce domestication. Our study directly links for the first time circadian clock deceleration to domestication and breeding in a leafy crop. PHYC emerges as a pleiotropic regulator of the clock and developmental timing shaped by selecting delayed bolting during lettuce domestication and breeding. We demonstrate that circadian phenotyping is a powerful, scalable tool to predict developmental timing and uncover targets for crop improvement.

Original language	English
Pages (from-to)	1892-1902
Number of pages	11
Journal	The New phytologist
Volume	248
Issue number	4
Early online date	21 Aug 2025
DOIs	https://doi.org/10.1111/nph.70489
Publication status	Published - Nov 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). New Phytologist © 2025 New Phytologist Foundation.

Funding

This research was part of the TTW Perspectief program ‘Sky High’. We thank all the organisations that supported this consortium: the Amsterdam Institute for Advanced Metropolitan Solutions (AMS), Bayer AG, Bosman van Zaal, Certhon, Fresh Forward, Grodan, Growy, Own Greens/Vitroplus, Priva, Philips by Signify, Solynta, Unilever, van Bergen Kolpa Architects and the Dutch Research Council (NWO). Additionally, we extend our acknowledgments to the LettuceKnow TTW Perspectief Program, financed by the Dutch Research Council (NWO; TTW) and the breeding companies BASF, Bejo Zaden B.V., Limagrain, Enza Zaden Research & Development B.V., Rijk Zwaan Breeding B.V., Syngenta Seeds B.V. and Takii and Co. Ltd. We thank Late Dr Lou Ping, Dr Fiona Belbin and Dr Yakun Zheng (Dartmouth College) for providing help with phenotype analyses and support. Prof Maarten Koornneef for insightful discussions; Gerrit Stunnenberg for technical support (WUR) as well as Martina Juranic and Betty Henken (WUR) for methods orientation. We thank members of the LettuceKnow project: Jelmer van Lieshout, Kiki Spaninks and Remko Offringa at Leiden University for their help in the field trials.

Funders
Takii and Co. Ltd
Syngenta Seeds B.V.
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
BASF
Rijk Zwaan Breeding B.V.
Bejo Zaden

Keywords

PHYC
bolting
breeding
circadian clock
domestication
flowering time
genome-wide association study (GWAS)
lettuce (Lactuca sativa)

Access to Document

10.1111/nph.70489Licence: CC BY

New Phytologist - 2025 - Anton‐Sales - Breeding for delayed bolting decelerated the circadian clock in cultivated lettuceFinal published version, 1.86 MBLicence: CC BY

Cite this

@article{65e0b3181c4d4a0f8c7ac94e7f5eb1f0,

title = "Breeding for delayed bolting decelerated the circadian clock in cultivated lettuce",

abstract = "Circadian clocks pace biological events and influence developmental traits, but their role in leafy crop domestication has remained unexplored. We investigated whether selection for delayed bolting during lettuce domestication targeted clock components. We phenotyped circadian rhythms and developmental timing across 234 cultivated and wild lettuce accessions. Using high-throughput leaf movement tracking, genome-wide association studies (GWAS) and haplotype analyses, we identified genetic variants controlling both the clock period and bolting time. Cultivated lettuce exhibits a significantly longer circadian period than its wild relatives, associated with a truncating mutation in PHYTOCHROME C (PHYC). This allele is not only associated with a decelerated clock but also with delayed bolting and flowering time in multiple field experiments. The truncating PHYC allele (H02) is enriched in modern cultivars and phylogenetically close to the wild ancestor (Lactuca serriola) alleles, indicating an early selection during lettuce domestication. Our study directly links for the first time circadian clock deceleration to domestication and breeding in a leafy crop. PHYC emerges as a pleiotropic regulator of the clock and developmental timing shaped by selecting delayed bolting during lettuce domestication and breeding. We demonstrate that circadian phenotyping is a powerful, scalable tool to predict developmental timing and uncover targets for crop improvement.",

keywords = "PHYC, bolting, breeding, circadian clock, domestication, flowering time, genome-wide association study (GWAS), lettuce (Lactuca sativa)",

author = "C{\`e}lia Anton-Sales and \{van den Bergh\}, \{Esther S\} and Alejandro Th{\'e}r{\`e}se-Navarro and Edouard Severing and Daniel Mo{\~n}ino-L{\'o}pez and Joseph DiPalma and Marcel Proveniers and McClung, \{C Robertson\} and Marieke Jeuken and Guusje Bonnema",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). New Phytologist {\textcopyright} 2025 New Phytologist Foundation.",

year = "2025",

month = nov,

doi = "10.1111/nph.70489",

language = "English",

volume = "248",

pages = "1892--1902",

journal = "The New phytologist",

issn = "0028-646X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "4",

}

TY - JOUR

T1 - Breeding for delayed bolting decelerated the circadian clock in cultivated lettuce

AU - Anton-Sales, Cèlia

AU - van den Bergh, Esther S

AU - Thérèse-Navarro, Alejandro

AU - Severing, Edouard

AU - Moñino-López, Daniel

AU - DiPalma, Joseph

AU - Proveniers, Marcel

AU - McClung, C Robertson

AU - Jeuken, Marieke

AU - Bonnema, Guusje

PY - 2025/11

Y1 - 2025/11

N2 - Circadian clocks pace biological events and influence developmental traits, but their role in leafy crop domestication has remained unexplored. We investigated whether selection for delayed bolting during lettuce domestication targeted clock components. We phenotyped circadian rhythms and developmental timing across 234 cultivated and wild lettuce accessions. Using high-throughput leaf movement tracking, genome-wide association studies (GWAS) and haplotype analyses, we identified genetic variants controlling both the clock period and bolting time. Cultivated lettuce exhibits a significantly longer circadian period than its wild relatives, associated with a truncating mutation in PHYTOCHROME C (PHYC). This allele is not only associated with a decelerated clock but also with delayed bolting and flowering time in multiple field experiments. The truncating PHYC allele (H02) is enriched in modern cultivars and phylogenetically close to the wild ancestor (Lactuca serriola) alleles, indicating an early selection during lettuce domestication. Our study directly links for the first time circadian clock deceleration to domestication and breeding in a leafy crop. PHYC emerges as a pleiotropic regulator of the clock and developmental timing shaped by selecting delayed bolting during lettuce domestication and breeding. We demonstrate that circadian phenotyping is a powerful, scalable tool to predict developmental timing and uncover targets for crop improvement.

AB - Circadian clocks pace biological events and influence developmental traits, but their role in leafy crop domestication has remained unexplored. We investigated whether selection for delayed bolting during lettuce domestication targeted clock components. We phenotyped circadian rhythms and developmental timing across 234 cultivated and wild lettuce accessions. Using high-throughput leaf movement tracking, genome-wide association studies (GWAS) and haplotype analyses, we identified genetic variants controlling both the clock period and bolting time. Cultivated lettuce exhibits a significantly longer circadian period than its wild relatives, associated with a truncating mutation in PHYTOCHROME C (PHYC). This allele is not only associated with a decelerated clock but also with delayed bolting and flowering time in multiple field experiments. The truncating PHYC allele (H02) is enriched in modern cultivars and phylogenetically close to the wild ancestor (Lactuca serriola) alleles, indicating an early selection during lettuce domestication. Our study directly links for the first time circadian clock deceleration to domestication and breeding in a leafy crop. PHYC emerges as a pleiotropic regulator of the clock and developmental timing shaped by selecting delayed bolting during lettuce domestication and breeding. We demonstrate that circadian phenotyping is a powerful, scalable tool to predict developmental timing and uncover targets for crop improvement.

KW - PHYC

KW - bolting

KW - breeding

KW - circadian clock

KW - domestication

KW - flowering time

KW - genome-wide association study (GWAS)

KW - lettuce (Lactuca sativa)

UR - https://www.scopus.com/pages/publications/105013792606

U2 - 10.1111/nph.70489

DO - 10.1111/nph.70489

M3 - Article

C2 - 40842179

SN - 0028-646X

VL - 248

SP - 1892

EP - 1902

JO - The New phytologist

JF - The New phytologist

IS - 4

ER -

Breeding for delayed bolting decelerated the circadian clock in cultivated lettuce

Abstract

Bibliographical note

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Cite this