Scientists have finally learned how a common plant hormone, jasmonate, responds to insects and diseases.
“Now that we know what the active signals are and have identified the key regulatory proteins -- the JAZ proteins -- involved, the hope is to either genetically modify plants or develop compounds that mimic the jasmonate hormone,” Howe said. “The research may help scientists engineer plants for increased resistance to insects and pathogens.”
Jasmonate is the last major plant hormone to have its signaling process revealed. Initial research by WSU researchers identified the family of proteins -- dubbed JAZ proteins -- that are critical to plants receiving and responding to the jasmonate signal.
Independent of the WSU work, Howe and He used Arabidopsis, a common lab plant, and tomato plants to determine how JAZ proteins work. Their experiments showed that the jasmonate signal causes direct interaction between JAZ proteins and a second protein complex, SCFCOI1, that works to eliminate the JAZ protein so that the plant can mount a defensive response.
{sidebar id=1}
For more: Gregg Howe,
Latest from Garden Center
- University of Florida study unlocks secrets of invasive short-spined thrips
- Kian-backed Eden Brothers adds Michael Hollenstein as CEO, expands senior leadership team
- IPPS announces organizational rebrand, new website and 2026 international membership drive
- Growscape appoints chief manufacturing officer, Brian Cunningham
- Experts help Florida cemetery become state’s first to earn arboretum accreditation
- Fresh Inset appoints Gordon Robertson as general manager, North America
- Society of American Florists planning fifth annual Next Gen LIVE! conference for young floral professionals
- Applications now open for American Floral Endowment graduate scholarships
