13 research outputs found
Supporting young people into training, learning, and work during Covid-19:Covid 19 guidance document
A denylate cyclase activity of TIR1/AFB auxin receptors for root growth
The phytohormone auxin is the major coordinative signal in plant development1, mediating transcriptional reprogramming by a well-established canonical signalling pathway. TRANSPORT INHIBITOR RESPONSE 1 (TIR1)/AUXIN-SIGNALING F-BOX (AFB) auxin receptors are F-box subunits of ubiquitin ligase complexes. In response to auxin, they associate with Aux/IAA transcriptional repressors and target them for degradation via ubiquitination2,3. Here we identify adenylate cyclase (AC) activity as an additional function of TIR1/AFB receptors across land plants. Auxin, together with Aux/IAAs, stimulates cAMP production. Three separate mutations in the AC motif of the TIR1 C-terminal region, all of which abolish the AC activity, each render TIR1 ineffective in mediating gravitropism and sustained auxin-induced root growth inhibition, and also affect auxin-induced transcriptional regulation. These results highlight the importance of TIR1/AFB AC activity in canonical auxin signalling. They also identify a unique phytohormone receptor cassette combining F-box and AC motifs, and the role of cAMP as a second messenger in plants
The evolution of sperm and non-sperm producing organs in male Drosophila
The male ejaculate is made up of two components: sperm and non-sperm. There has been little consideration of how these two basic compartments evolve. If they are subject to trade-offs, theory predicts that when the sperm competition raffle is unfair, when seminal fluid proteins stimulate fecundity and/or when ejaculate components alter fertilization success, there will be differential selection on sperm versus non-sperm ejaculate characteristics. However, the fundamental assumption that there are trade-offs between sperm and non-sperm ejaculate compartments in Drosophila has not yet been tested. To address this, we examined testis (sperm producing) and accessory gland (non-sperm producing) size across 22 species of Drosophila. We also examined how these characters varied with copulation duration, which may represent an additional target for sperm competition. The results showed no evidence of a trade-off between testis length and accessory gland length. Copulation duration correlated negatively with accessory gland length and there was a positive correlation with testis length, but only after correcting for body size. Overall, the results suggest no evidence for gross trade-offs in sperm versus non-sperm compartments across these Drosophila species, and motivate more detailed examination of ejaculate investment patterns