Scientists mapped RNA switches that help cannabis survive drought
Sarel D, Yerli N, Büyük İ
Plant Signaling
Cannabis and hemp, grown now from backyard gardens to commercial fields in increasingly dry climates, depend on molecular alarm systems to survive water stress, and this study mapped those switches for the first time, pointing toward varieties that could hold their ground through a dry summer without intensive irrigation.
Plants have RNA molecules that act as regulators, tuning other genes up or down without ever becoming proteins themselves. This study found over 2,000 of them active in cannabis leaves and showed that 51 respond specifically when the plant is drought-stressed. Those regulators appear to control how the plant stiffens its cell walls, manages its stress hormones, and handles water movement across its cells.
Key Findings
2,096 novel regulatory RNAs were identified in cannabis leaves, with 51 showing significant differential expression under progressive drought stress alongside 575 protein-coding genes
Drought-responsive regulatory RNAs target pathways for lignin and cell-wall biosynthesis, abscisic acid stress-hormone signaling, and vacuolar ion transport
FAR1-family light-signaling transcription factors were strongly over-represented among regulatory RNA targets, suggesting drought and light stress may share a common regulatory circuit in cannabis
chevron_right Technical Summary
Researchers produced the first systematic map of drought-responsive regulatory RNAs in cannabis, identifying 2,096 novel molecules that help coordinate the plant's stress response. The study connects these regulators to lignin production, abscisic acid hormone signaling, and a proposed link between drought and light-sensing pathways.
Abstract Preview
Original paper
Long non-coding RNA landscape and ceRNA networks underlying the drought response of Cannabis sativa L.
Drought is a major constraint on plant productivity, and long non-coding RNAs (lncRNAs) are increasingly recognized as key regulators of plant stress responses. Yet drought-responsive lncRNAs remai...
open_in_new Read full abstractAbstract copyright held by the original publisher.
Was this useful?
Want to tell us more? (optional)
Thanks for the note!
Something went wrong — please try again.
Too many submissions. Try again in an hour.
Chloroplast Genome Editing Eliminates Gluten Immunogenicity in Triticum aestivum
It could mean that people with celiac disease — roughly 1 in 100 worldwide — may one day safely eat bread made from real wheat, without sacrificing the taste...
Hemp, or industrial hemp, is a plant in the botanical class of Cannabis sativa cultivars grown specifically for industrial and consumable use. It can be used to make a wide range of products. Along with bamboo, hemp is among the fastest growing plants on Earth. It was also one of the first plants...