The many roles of jasmonate in plant growth, reproduction, and defense raise interesting questions about how this lipid-derived hormone emerged during evolution. Recent studies indicate that a uhigher plant*5 pathway ...The many roles of jasmonate in plant growth, reproduction, and defense raise interesting questions about how this lipid-derived hormone emerged during evolution. Recent studies indicate that a uhigher plant*5 pathway involving jasmonoyl-L-isoleucine (JA-lle) as the receptor-active ligand is conserved in vascular plants (Bowman et al., 2017;Howe et al., 2018). Within this core sign aling pathway, J AZ protei ns link JA-lle perception to changes in the activity of MYC transcription factors (TFs)(Figure 1) and have emerged as a conserved hub for crosstalk in hormone response pathways.展开更多
基金the Chemical Sciences, Geosciences, and Biosciences Division, Basic Energy Sciences, Office of Science at the U.SDepartment of Energy through grant DE-FG02-91ER20021+2 种基金the National Science Foundation through grant IOS-1456864the Michigan AgBioResearch through project MICL02278the Plant Resilience Institute at Michigan State University.
文摘The many roles of jasmonate in plant growth, reproduction, and defense raise interesting questions about how this lipid-derived hormone emerged during evolution. Recent studies indicate that a uhigher plant*5 pathway involving jasmonoyl-L-isoleucine (JA-lle) as the receptor-active ligand is conserved in vascular plants (Bowman et al., 2017;Howe et al., 2018). Within this core sign aling pathway, J AZ protei ns link JA-lle perception to changes in the activity of MYC transcription factors (TFs)(Figure 1) and have emerged as a conserved hub for crosstalk in hormone response pathways.
