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Functional variants of <i>DOG1</i> control seed chilling responses and variation in seasonal life-history strategies in <i>Arabidopsis thaliana</i>

Alejandra Martínez‐Berdeja, Michelle C. Stitzer, Mark A. Taylor, Miki Okada, Exequiel Ezcurra, Daniel E. Runcie, Johanna Schmitt

2020Proceedings of the National Academy of Sciences106 citationsDOIOpen Access PDF

Abstract

The seasonal timing of seed germination determines a plant’s realized environmental niche, and is important for adaptation to climate. The timing of seasonal germination depends on patterns of seed dormancy release or induction by cold and interacts with flowering-time variation to construct different seasonal life histories. To characterize the genetic basis and climatic associations of natural variation in seed chilling responses and associated life-history syndromes, we selected 559 fully sequenced accessions of the model annual species Arabidopsis thaliana from across a wide climate range and scored each for seed germination across a range of 13 cold stratification treatments, as well as the timing of flowering and senescence. Germination strategies varied continuously along 2 major axes: 1) Overall germination fraction and 2) induction vs. release of dormancy by cold. Natural variation in seed responses to chilling was correlated with flowering time and senescence to create a range of seasonal life-history syndromes. Genome-wide association identified several loci associated with natural variation in seed chilling responses, including a known functional polymorphism in the self-binding domain of the candidate gene DOG1. A phylogeny of DOG1 haplotypes revealed ancient divergence of these functional variants associated with periods of Pleistocene climate change, and Gradient Forest analysis showed that allele turnover of candidate SNPs was significantly associated with climate gradients. These results provide evidence that A. thaliana ’s germination niche and correlated life-history syndromes are shaped by past climate cycles, as well as local adaptation to contemporary climate.

Topics & Concepts

Arabidopsis thalianaBiologyArabidopsisLife historyVariation (astronomy)BotanyEcologyGeneticsGeneAstrophysicsMutantPhysicsSeed Germination and PhysiologyPlant Molecular Biology ResearchPlant Reproductive Biology
Functional variants of <i>DOG1</i> control seed chilling responses and variation in seasonal life-history strategies in <i>Arabidopsis thaliana</i> | Litcius