HY5 is involved in strigolactone-dependent seed germination in Arabidopsis

Abstract

Strigolactones (SLs) function as plant hormones that mediate a myriad of developmental responses in higher plants. SLs also act as an environmental signal to stimulate seed germination of parasitic plant species of genera Striga and Orobanche. In contrast to their hormonal roles, genetic mechanisms of how SLs stimulate parasitic seed germination are largely not known. Recently, we established a method to monitor the germination-stimulating activity of SLs in Arabidopsis using temperature as environmental constraint (thermoinhibition). Here, we show that SLs require HY5, a key transcription factor for light signal transduction, to stimulate Arabidopsis seed germination during thermoinhibiton. Genetic analysis suggests the HY5 dependent signaling pathway is independent of other known SL signaling pathways. Thermoinhibibed seeds expressed low level of HY5 while GR24 increase the level at both mRNA and protein level. A role of SLs on activating crucial light signaling components such as HY5 may hint the evolution of parasitism associated with SL usage. © 2012 Landes Bioscience.