| Title : A fluorescent alternative to the synthetic strigolactone GR24 - Rasmussen_2013_Mol.Plant_6_100 |
| Author(s) : Rasmussen A , Heugebaert T , Matthys C , Van Deun R , Boyer FD , Goormachtig S , Stevens C , Geelen D |
| Ref : Mol Plant , 6 :100 , 2013 |
|
Abstract :
Strigolactones have recently been implicated in both above- and below-ground developmental pathways in higher plants. To facilitate the molecular and chemical properties of strigolactones in vitro and in vivo, we have developed a fluorescent strigolactone molecule, CISA-1, synthesized via a novel method which was robust, high-yielding, and used simple starting materials. We demonstrate that CISA-1 has a broad range of known strigolactone activities and further report on an adventitious rooting assay in Arabidopsis which is a highly sensitive and rapid method for testing biological activity of strigolactone analogs. In this rooting assay and the widely used Orobanche germination assay, CISA-1 showed stronger biological activity than the commonly tested GR24. CISA-1 and GR24 were equally effective at inhibiting branching in Arabidopsis inflorescence stems. In both the branching and adventitious rooting assay, we also demonstrated that CISA-1 activity is dependent on the max strigolactone signaling pathway. In water methanol solutions, CISA-1 was about threefold more stable than GR24, which may contribute to the increased activity observed in the various biological tests. |
| PubMedSearch : Rasmussen_2013_Mol.Plant_6_100 |
| PubMedID: 23024210 |
| Substrate | CISA-1 |
Rasmussen A, Heugebaert T, Matthys C, Van Deun R, Boyer FD, Goormachtig S, Stevens C, Geelen D (2013)
A fluorescent alternative to the synthetic strigolactone GR24
Mol Plant
6 :100
Rasmussen A, Heugebaert T, Matthys C, Van Deun R, Boyer FD, Goormachtig S, Stevens C, Geelen D (2013)
Mol Plant
6 :100