Abstract
Setaria viridis has recently emerged as a promising genetic model system to study diverse aspects of monocot biology. While the post-germination life cycle of S. viridis is approximately 8 weeks long, the prolonged dormancy of freshly harvested seeds can more than double the total time required between successive generations. Here we describe methods that promote seed germination in S. viridis. Our results demonstrate that treating S. viridis seeds with liquid smoke or a GA3 and KNO3 solution improves germination rates to 90% or higher even in seeds that are 6 days post-harvest with similar results obtained whether seeds are planted in soil or on gel-based media. Importantly, we show that these treatments have no significant effect on the growth of the adult plant. We have tested these treatments on diverse S. viridis accessions and show variation in their response. The methods described here will help advance research using this model grass species by increasing the pace at which successive generations of plants can be analyzed.
Highlights
Monocots contribute the largest share of the world’s food supply and biofuel feed stock
S. viridis To investigate the extent of seed dormancy in S. viridis, seeds were harvested at different time points and sown in moist soil (Figure 1A & B)
Dormancy in S. viridis seeds is dependent on the length of time post-harvest and germination rates improved above 50% only after 60 dph (Figure 1C)
Summary
Monocots contribute the largest share of the world’s food supply and biofuel feed stock (http://faostat.fao.org/site/339/default. aspx). An array of S. viridis traits make this plant species highly useful as a model for understanding bioenergy grasses including its small plant size (20– 50 cm), relatively small genome (,515 Mb), fast lifecycle (6–8 weeks), prolific seed production, ease of growing under controlled conditions and C4-type photosynthesis pathway. S. viridis has recently been used to study a range of biological processes from flowering time, shoot architecture and the evolution of photosynthesis [2,3,4,5]. Several studies have reported the extent of dormancy in S. viridis seeds and it is widely considered as an adaptation enhancing its growth and survival as a weed species [9,10,11,12,13]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
