On the origin of the late-flowering ppd-H1 allele in barley

Rajiv Sharma; Salar Shaaf; Kerstin Neumann; Peter Civan; Yu Guo; Martin Mascher; Michal David; Adnan Al-Yassin; Hakan Özkan; Tom Blake; Sariel Hübner; Nora P Castañeda-Álvarez; Stefania Grando; Salvatore Ceccarelli; Michael Baum; Andreas Graner; George Coupland; Klaus Pillen; Ehud Weiss; Ian J Mackay; Wayne Powell; Benjamin Kilian

doi:10.1007/s00122-025-04981-1

On the origin of the late-flowering ppd-H1 allele in barley

Rajiv Sharma^*, Salar Shaaf, Kerstin Neumann, Peter Civan, Yu Guo, Martin Mascher, Michal David, Adnan Al-Yassin, Hakan Özkan, Tom Blake, Sariel Hübner, Nora P Castañeda-Álvarez, Stefania Grando, Salvatore Ceccarelli, Michael Baum, Andreas Graner, George Coupland, Klaus Pillen, Ehud Weiss, Ian J MackayWayne Powell, Benjamin Kilian

^*Corresponding author for this work

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Abstract

To breed for climate resilient crops, an understanding of the genetic and environmental factors influencing adaptation is critical. Barley provides a model species to study adaptation to climate change. Here we present a detailed analysis of genetic variation at a major photoperiod response locus and relate this to the domestication history and dispersal of barley. The PPD-H1 locus (a PSEUDO-RESPONSE REGULATOR 7) promotes flowering under long-day conditions, and a natural mutation at this locus resulted in a recessive, late-flowering ppd-H1 allele. This mutation proved beneficial in high-latitude environments such as Northern Europe, where it allows extended vegetative growth during long spring days. We infer the origin of the mutated late-flowering ppd-H1 allele by re-sequencing a large geo-referenced collection of 942 Hordeum spontaneum, 5 Hordeum agriocrithon and 1110 domesticated (Hordeum vulgare) barleys. We demonstrate that the late-flowering phenotype originated from Desert-type wild barley in the Southern Levant and present evidence suggesting a post-domestication origin of the mutated ppd-H1 allele.

Original language	English
Article number	246
Journal	TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik
Volume	138
Issue number	10
Early online date	10 Sept 2025
DOIs	https://doi.org/10.1007/s00122-025-04981-1
Publication status	First published - 10 Sept 2025

Bibliographical note

Keywords

Hordeum/genetics
Alleles
Phenotype
Flowers/genetics
Plant Proteins/genetics
Mutation
Photoperiod
Genes, Plant
Domestication
Genetic Variation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Sharma, R., Shaaf, S., Neumann, K., Civan, P., Guo, Y., Mascher, M., David, M., Al-Yassin, A., Özkan, H., Blake, T., Hübner, S., Castañeda-Álvarez, N. P., Grando, S., Ceccarelli, S., Baum, M., Graner, A., Coupland, G., Pillen, K., Weiss, E., ... Kilian, B. (2025). On the origin of the late-flowering ppd-H1 allele in barley. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik, 138(10), Article 246. Advance online publication. https://doi.org/10.1007/s00122-025-04981-1

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abstract = "To breed for climate resilient crops, an understanding of the genetic and environmental factors influencing adaptation is critical. Barley provides a model species to study adaptation to climate change. Here we present a detailed analysis of genetic variation at a major photoperiod response locus and relate this to the domestication history and dispersal of barley. The PPD-H1 locus (a PSEUDO-RESPONSE REGULATOR 7) promotes flowering under long-day conditions, and a natural mutation at this locus resulted in a recessive, late-flowering ppd-H1 allele. This mutation proved beneficial in high-latitude environments such as Northern Europe, where it allows extended vegetative growth during long spring days. We infer the origin of the mutated late-flowering ppd-H1 allele by re-sequencing a large geo-referenced collection of 942 Hordeum spontaneum, 5 Hordeum agriocrithon and 1110 domesticated (Hordeum vulgare) barleys. We demonstrate that the late-flowering phenotype originated from Desert-type wild barley in the Southern Levant and present evidence suggesting a post-domestication origin of the mutated ppd-H1 allele.",

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Sharma, R, Shaaf, S, Neumann, K, Civan, P, Guo, Y, Mascher, M, David, M, Al-Yassin, A, Özkan, H, Blake, T, Hübner, S, Castañeda-Álvarez, NP, Grando, S, Ceccarelli, S, Baum, M, Graner, A, Coupland, G, Pillen, K, Weiss, E, Mackay, IJ, Powell, W & Kilian, B 2025, 'On the origin of the late-flowering ppd-H1 allele in barley', TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik, vol. 138, no. 10, 246. https://doi.org/10.1007/s00122-025-04981-1

TY - JOUR

T1 - On the origin of the late-flowering ppd-H1 allele in barley

AU - Sharma, Rajiv

AU - Shaaf, Salar

AU - Neumann, Kerstin

AU - Civan, Peter

AU - Guo, Yu

AU - Mascher, Martin

AU - David, Michal

AU - Al-Yassin, Adnan

AU - Özkan, Hakan

AU - Blake, Tom

AU - Hübner, Sariel

AU - Castañeda-Álvarez, Nora P

AU - Grando, Stefania

AU - Ceccarelli, Salvatore

AU - Baum, Michael

AU - Graner, Andreas

AU - Coupland, George

AU - Pillen, Klaus

AU - Weiss, Ehud

AU - Mackay, Ian J

AU - Powell, Wayne

AU - Kilian, Benjamin

PY - 2025/9/10

Y1 - 2025/9/10

N2 - To breed for climate resilient crops, an understanding of the genetic and environmental factors influencing adaptation is critical. Barley provides a model species to study adaptation to climate change. Here we present a detailed analysis of genetic variation at a major photoperiod response locus and relate this to the domestication history and dispersal of barley. The PPD-H1 locus (a PSEUDO-RESPONSE REGULATOR 7) promotes flowering under long-day conditions, and a natural mutation at this locus resulted in a recessive, late-flowering ppd-H1 allele. This mutation proved beneficial in high-latitude environments such as Northern Europe, where it allows extended vegetative growth during long spring days. We infer the origin of the mutated late-flowering ppd-H1 allele by re-sequencing a large geo-referenced collection of 942 Hordeum spontaneum, 5 Hordeum agriocrithon and 1110 domesticated (Hordeum vulgare) barleys. We demonstrate that the late-flowering phenotype originated from Desert-type wild barley in the Southern Levant and present evidence suggesting a post-domestication origin of the mutated ppd-H1 allele.

AB - To breed for climate resilient crops, an understanding of the genetic and environmental factors influencing adaptation is critical. Barley provides a model species to study adaptation to climate change. Here we present a detailed analysis of genetic variation at a major photoperiod response locus and relate this to the domestication history and dispersal of barley. The PPD-H1 locus (a PSEUDO-RESPONSE REGULATOR 7) promotes flowering under long-day conditions, and a natural mutation at this locus resulted in a recessive, late-flowering ppd-H1 allele. This mutation proved beneficial in high-latitude environments such as Northern Europe, where it allows extended vegetative growth during long spring days. We infer the origin of the mutated late-flowering ppd-H1 allele by re-sequencing a large geo-referenced collection of 942 Hordeum spontaneum, 5 Hordeum agriocrithon and 1110 domesticated (Hordeum vulgare) barleys. We demonstrate that the late-flowering phenotype originated from Desert-type wild barley in the Southern Levant and present evidence suggesting a post-domestication origin of the mutated ppd-H1 allele.

KW - Hordeum/genetics

KW - Alleles

KW - Phenotype

KW - Flowers/genetics

KW - Plant Proteins/genetics

KW - Mutation

KW - Photoperiod

KW - Genes, Plant

KW - Domestication

KW - Genetic Variation

UR - https://www.scopus.com/pages/publications/105015703163

U2 - 10.1007/s00122-025-04981-1

DO - 10.1007/s00122-025-04981-1

M3 - Article

C2 - 40931145

SN - 0040-5752

VL - 138

JO - TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik

JF - TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik

IS - 10

M1 - 246

ER -

On the origin of the late-flowering ppd-H1 allele in barley

Abstract

Bibliographical note

Keywords

UN SDGs

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