MicroRNA-regulated phase change controls reproductive stem elongation (Experiment M1)
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ABSTRACT: Many plants dramatically elongate their vegetative stems following flowering, yet it is unclear how this response is linked to the reproductive phase. We show that microRNA (miRNA) control of a deeply conserved phase change transcription factor, APETALA (AP2), is required for rapid and complete elongation of stem internodes in barley, especially of the final 'peduncle' internode directly underneath the inflorescence. Disrupted miR172-targeting of AP2 causes leads to short peduncles in the Zeo barley mutant due to reduced cell number and late stage cell expansion, which was associated with lower mitotic activity, delayed growth dynamics and premature lignification. In agreement, multiple, stage and tissue specific comparative transcriptomics revealed decreased expression of proliferation-associated genes, and ectopic expression of maturation-related genes in Zeo1.b. In addition, Zeo1.b peduncles showed persistent, elevated expression of genes associated with jasmonate (JA) and stress responses. Reproductive development including stem elongation in Zeo1.b was hypersensitive to inhibition by methyl JA (MeJA) but less responsive to promotion via gibberellin (GA). Based on these data, we propose that miR172- restriction of AP2 during flowering may release JA-associated vegetative growth restraint in order to facilitate GA-promoted stem growth in the reproductive phase. Microarray experiment M1. Comparison of control Bowman (Bw) and mutant (Zeo1.b) lines in peduncle initials tissue.
INSTRUMENT(S): Agilent G2505B scanner
ORGANISM(S): Hordeum vulgare
SUBMITTER: Pete Hedley
PROVIDER: E-MTAB-7229 | biostudies-arrayexpress |
REPOSITORIES: biostudies-arrayexpress
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