Abstract
Field pennycress (Thlaspi arvense L.) is currently being developed as a new cold‐tolerant oilseed crop. In natural populations, pennycress, like many Brassicaceae relatives, can exhibit either a winter or spring annual phenotype. Pennycress is a diploid relative of Arabidopsis thaliana, a model species that has been used to study many adaptive phenotypes, including flowering time and developmental timing. In Arabidopsis and other Brassicaceae species, mutations in negative regulators of flowering, including FLOWERING LOCUS C and FRIGIDA can cause the transition to a spring annual habit. The genetics underlying the difference between spring and winter annual pennycress lines are currently unknown. Here, we report the identification of four natural alleles of FLC in pennycress that confer a spring annual growth habit identified through whole genome sequencing, cosegregation analyses, and comparative genomics. The global distribution of these spring annual alleles of FLC suggests that the spring annual growth habit has arisen on several independent occasions. The two spring annual FLC alleles present in European accessions were only identified in North American accessions collected in southern Montana, which indicates accessions harboring these two alleles were introduced to North America, likely after pennycress became a widespread species on the continent. These findings provide new information on the natural history of the introduction and spread of spring annual pennycress accessions from Europe into North America. At the molecular level, these findings are important for the ongoing development of pennycress as a winter annual crop. An enhanced understanding of the regulation of flowering in this species should allow for the fine‐tuning of flowering in commercial varieties.
Highlights
Thlaspi arvense L. is currently a target for domestication as a new, cold-hardy winter oilseed crop that can fit within the corn/soybean rotation in the Midwestern United States (Dorn et al, 2013; Sedbrook, 2014; Dorn et al, 2015)
We show that key mutations in the FLOWERING LOCUS C (FLC) gene are responsible for spring flowering in many natural pennycress accessions, including one allele of FLC that confers the spring annual growth habit that spread from Europe to North America
A spring flowering pennycress variant, named MN108SA, was isolated from a mixed population of both spring and winter annual individuals collected from Roseau, Minnesota
Summary
Thlaspi arvense L. (field pennycress, pennycress ) is currently a target for domestication as a new, cold-hardy winter oilseed crop that can fit within the corn/soybean rotation in the Midwestern United States (Dorn et al, 2013; Sedbrook, 2014; Dorn et al, 2015). (field pennycress, pennycress ) is currently a target for domestication as a new, cold-hardy winter oilseed crop that can fit within the corn/soybean rotation in the Midwestern United States (Dorn et al, 2013; Sedbrook, 2014; Dorn et al, 2015). Pennycress will flower and set seed, yielding upwards of 1,600 pounds per acre of oilrich seed in time for planting a crop of soybean (Phippen & Phippen, 2012; Sedbrook, 2014). Pennycress is a member of the Thlaspideae, a tribe of the Brassicaceae (Beilstein et al., 2008). Pennycress resides in lineage II, along with the Brassica genus, including the economically important oilseed crops Brassica rapa and Brassica napus, but not the model species Arabidopsis thaliana nor Capsella rubella, which are members of lineage I (Franzke et al, 2011). Pennycress is native to Eurasia and is considered naturalized to most temperate to subarctic regions throughout the northern hemisphere, including all of the United States except for Hawaii and Alabama, all provinces of Canada, as well as being considered naturalized in the southern hemisphere, including Australia, New Zealand, and Argentina (Warwick, 2002 )
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