Abstract
Summary Seedling emergence timing is crucial in competitive plant communities and so contributes to species fitness. To understand the mechanistic basis of variation in seedling emergence timing, we exploited the contrasting behaviour of two Arabidopsis thaliana ecotypes: Cape Verde Islands (Cvi) and Burren (Bur‐0).We used RNA‐Seq analysis of RNA from exhumed seeds and quantitative trait loci (QTL) analyses on a mapping population from crossing the Cvi and Bur‐0 ecotypes.We determined genome‐wide expression patterns over an annual dormancy cycle in both ecotypes, identifying nine major clusters based on the seasonal timing of gene expression, and variation in behaviour between them. QTL were identified for depth of seed dormancy and seedling emergence timing (SET).Both analyses showed a key role for DOG1 in determining depth of dormancy, but did not support a direct role for DOG1 in generating altered seasonal patterns of seedling emergence. The principle QTL determining SET (SET1: dormancy cycling) is physically close on chromosome 5, but is distinct from DOG1. We show that SET1 and two other SET QTLs each contain a candidate gene (AHG1, ANAC060, PDF1 respectively) closely associated with DOG1 and abscisic acid signalling and suggest a model for the control of SET in the field.
Highlights
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Seeds of the two ecotypes had contrasting patterns in depth of dormancy, as a result germination potential increased at the time of year characteristic of a winter annual (Cvi) and a summer annual (Bur-0)
As DOG1 had previously been causally linked to seedling emergence timing (Huang et al, 2010; Postma and Agren, 2016; Finch-Savage and Footitt, 2017) we looked at genes previously identified as having DOG1-dependent gene expression (Bentsink et al, 2010; Dekkers et al, 2013) in both Cape Verde island (Cvi) and Bur-0
Summary
If a published version is known of, the repository item page linked to above, will contain details on accessing it. To the extent reasonable and practicable the material made available in WRAP has been checked for eligibility before being made available. Copies of full items can be used for personal research or study, educational, or not-for-profit purposes without prior permission or charge. Title and full bibliographic details are credited, a hyperlink and/or URL is given for the original metadata page and the content is not changed in any way. Trait analysis reveals DOG1 determines initial depth of seed dormancy, but not changes during dormancy cycling that result in seedling emergence timing
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