As a plant stress hormone, jasmonic acid (JA) plays an important role in mediating the resistance of plants against mechanical stress, pest attack, and pathogenic infection. The biosynthesis of JA and the expression of JA signaling genes are activated upon pest attack. However, JA-Ile signaling can also be hijacked by pathogenic bacteria by means of released effectors that antagonize salicylic acid-mediated plant immunity. JA also plays important roles in a variety of developmental processes, including flowering, root hair development, and trichome formation. Previous studies have shown that JA mediates herbivore resistance traits in tomatoes by promoting trichome formation. A group of inhibitory proteins called JASMONATE ZIM DOMAIN (JAZ) and the general corepressor TOPLESS physically interact to form a repression complex in JA signaling. In tomato, the loss of function of CORONATINE-INSENSITIVE1 (COI1) impairs JA signaling and can jeopardize the formation of type VI trichomes. In addition, SlJAZ2 can suppress the key transcription factor Woolly to regulate tomato trichome formation. Although evidence supporting the involvement of JA signaling in trichome formation has been accumulating, several downstream elements have not yet been identified, and the underlying mechanism is still not fully resolved.
Recently, scientists from Fujian Agriculture and Forestry University found that two C2H2 zinc finger proteins, H and HL, synergistically regulated JA-induced trichome formation in tomatoes. They also found that the spontaneous mutant LA3172 showed severe defects in trichome development. The JA signaling inhibitor SlJAZ2 repressed the activity of H and HL via physical interaction, thereby activating the negative regulator of trichome formation THM1.
“We cloned a homolog of H (Hair), named Hair-like (HL), that positively regulates the formation of long trichomes in tomato. Loss of function of both H and HL resulted in the absence of long trichomes in all tissues. We further found H/HL function is essential for JA-induced trichome formation, in which H/HL activity is usually repressed by JAZ2. In the presence of JA, high H/HL activity represses the expression of THM1, an R2R3 MYB transcription factor that negatively regulates trichome formation,” Prof. Wu said. These results provide novel insight into the mechanism of trichome formation in response to stress-induced JA signaling in tomatoes.
Bing Hua12 , Jiang Chang1 , Xiaoqian Han1 , Zhijing Xu1 , Shourong Hu1 , Shuang Li1 , Renyin Wang1 , Liling Yang1 , Meina Yang1 , Shasha Wu1 , Jingyuan Shen1 , Xiaomin Yu1 , Shuang Wu1
1 College of Horticulture, FAFU-UCR Joint Center for Horticultural Biology and Metabolomics, Fujian Agriculture and Forestry University, Fuzhou 350002, China.
2 College of Horticulture and Plant Protection, Yangzhou University, Yangzhou 225009, China.
About Dr. Wu Shuang
From 2009 to 2014, Prof. Wu Shuang performed postdoctoral research at the University of Pennsylvania in the United States. Since 2015, he has served as a professor at Fujian Agriculture and Forestry University. He has successively presided over national general projects and has performed systematic research on plant developmental regulation for more than ten years. Prof. Wu has published more than 20 SCI articles in international journals, with an average impact factor greater than 8. He has twice been invited to write articles summarizing research progress for top review journals in botany.
H and HL synergistically regulate jasmonate-triggered trichome formation in tomato
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