There are three papers in this week’s GARNet research roundup. The first paper is led by Jill Harrison’s lab in Bristol and she also provides an audio description of this work that has characterised a role for CLAVATA genes in the transition from 2D to 3D plant growth. The second paper from Ian Graham’s lab in York introduces the role of the MOTHER-OF-FT-AND-TFL1 gene during seed germination whilst the final paper includes co-authors from SLCU and Nottingham and has identified the RALF34 protein as a novel ligand that influences cell wall growth.
Whitewoods CD, Cammarata J, Nemec Venza Z, Sang S, Crook AD, Aoyama T, Wang XY, Waller M, Kamisugi Y, Cuming AC, Szövényi P, Nimchuk ZL, Roeder AHK, Scanlon MJ, Harrison CJ (2018) CLAVATA Was a Genetic Novelty for the Morphological Innovation of 3D Growth in Land Plants. Curr Biol. doi: 10.1016/j.cub.2018.05.068
Chris Whitewoods and Joe Cammarata are co-first authors in this UK-US-Japan collaboration that is led by GARNet committee member Jill Harrison from the University of Bristol. They have investigated the expression and function of CLAVATA genes during moss development with particular focus on the transition from 2D to 3D growth, showing that these genes are essential for gametophyte development. By showing the presence or absence of CLAVATA genes in different lower plant species they demonstrate that they are important for the transition between different modes of growth.
Vaistij FE, Barros-Galvão T, Cole AF, Gilday AD, He Z, Li Y, Harvey D, Larson TR, Graham IA (2018) MOTHER-OF-FT-AND-TFL1 represses seed germination under far-red light by modulating phytohormone responses in Arabidopsis thaliana. Proc Natl Acad Sci U S A. doi: 10.1073/pnas.1806460115
Fabian Vaistij is the first author on this paper from the lab of Ian Graham at the University of York that investigates the role of the MOTHER-OF-FT-AND-TFL1 (MFT) in the control of seed germination in Arabidopsis. They show that MFT is upregulated by far red light via the previously characterised PIF1/SOM/ABI5/DELLA pathway whilst repressed by red light through the action of the SPATULA (SPT) transcription factor. The activity of MFT alters levels of ABA and GA that ultimately delay germination in conditions with higher levels of FR light.
Gonneau M, Desprez T, Martin M, Doblas VG, Bacete L, Miart F, Sormani R, Hématy K, Renou J, Landrein B, Murphy E, Van De Cotte B, Vernhettes S, De Smet I, Höfte H (2018) Receptor Kinase THESEUS1 Is a Rapid Alkalinization Factor 34 Receptor in Arabidopsis. Curr Biol. doi: 10.1016/j.cub.2018.05.075
This French-led study that has Martine Gonneau and Thierry Desprez as co-lead authors includes Benoit Landrien (SLCU, Cambridge) and Evan Murphy (University of Nottingham) as co-authors. This research adds further detail to a signaling network that coordinates cell wall growth following different stimuli. They show that the rapid peptide alkalinization factor 34 (RALF34) is the ligand for the previously characterized THESEUS1 receptor kinase and that the activity of this signaling module is dependent on FERONIA, which is another RALF receptor.