Labmanager Logo
photo of a naturally thornless pink and orange rose at the New York Botanical Garden

Jack Satterlee/Cold Spring Harbor Laboratory

Every Rose Has Its Thorns…or Does It?

Plant biologists have found an answer to how completely different species develop very similar traits many millions of years apart

| 2 min read
Share this Article
Register for free to listen to this article
Listen with Speechify
0:00
2:00

According to Greek mythology, red roses first appeared when Aphrodite pricked her foot on a thorn, spilling blood on a white rose. Since then, roses’ thorns have captured the imaginations of countless poets and forlorn lovers.

But they aren’t the only plants with these dangerous protrusions, technically called prickles. Prickles have evolved independently in species across the plant kingdom. Their main function: warding off herbivores. They’re even present in certain eggplant and rice crops. Yet, for years, it’s been unclear how the trait pops up so frequently in such unrelated species.

Interested in life sciences?

Subscribe to our free Life Sciences Newsletter.

Is the form not loading? If you use an ad blocker or browser privacy features, try turning them off and refresh the page.

Now, in a breakthrough discovery, Cold Spring Harbor Laboratory (CSHL) has found that the same ancient gene family is responsible for prickles across many plants, despite millions of years of evolutionary separation.

CSHL postdoc James Satterlee was inspired to investigate prickles upon touring a field where his advisor, Professor & HHMI Investigator Zachary Lippman, grows hundreds of nightshades. Think tomatoes, potatoes, and eggplants.

“I noticed many had very prominent prickles. So, I asked, ‘What do we know about that? What’s going on with this adaptation?’ It turns out we knew almost nothing," recalls Satterlee. 

With scientists in Spain, Satterlee began analyzing eggplants, which led him to a gene family called LONELY GUY (LOG). LOG genes are normally responsible for making a hormone that causes cell division and expansion. Satterlee discovered that certain LOG mutations also eliminate prickles in eggplants. Lippman and Satterlee wondered: Could LOG-related genes be responsible for prickle gains and losses across multiple plants over millions of years?

The team started combing through prior studies and contacting collaborators around the globe. Satterlee and Lippman worked with the New York Botanical Garden to examine specimens with and without prickles. Collaborators at Cornell University used genome editing to eliminate prickles in desert raisins, a foraged berry native to Australia. Another colleague in France suppressed prickles in roses. In total, the team came to associate prickles with LOG-related genes in about 20 species.

Lippman says while this discovery could be used to engineer plants without prickles, it also has big implications for understanding convergent evolution in all life. That is, how completely different species independently develop similar traits. 

“You’re really asking about life in general—evolution of traits. How do they emerge? How are they modified? What are the underlying mechanisms? What can we learn about things we take for granted?” he explains. 

The answer could someday make lesser-known species like desert raisins a new fruit in supermarkets. At the very least, it should make life easier for horticulturalists plucking roses’ pesky thorns.

- This press release was originally published on the Cold Spring Harbor Laboratory website and has been edited for style and clarity

Loading Next Article...
Loading Next Article...

CURRENT ISSUE - December 2024

2025 Industry and Equipment Trends

Purchasing trends survey results

Lab Manager December 2024 Cover Image