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Structure and function of natural and synthetic signalling molecules in parasitic weed germination
Author(s) -
Zwanenburg Binne,
Mwakaboko Alinanuswe S,
Reizelman Anat,
Anilkumar Gopinathan,
Sethumadhavan Divakarame
Publication year - 2009
Publication title -
pest management science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.296
H-Index - 125
eISSN - 1526-4998
pISSN - 1526-498X
DOI - 10.1002/ps.1706
Subject(s) - strigolactone , orobanche , striga , germination , weed , biology , pharmacophore , parasitic plant , shoot , botany , biochemistry , arabidopsis , gene , host (biology) , mutant , ecology
The structures of naturally occurring germination stimulants for seeds of the parasitic weeds Striga spp. and Orobanche spp. are described. The bioactiphore in this strigolactone family of stimulants is deduced from a structure–activity relationship and shown to reside in the CD part of the stimulant molecule. A molecular mechanism for the initial stages of seed germination is proposed. The influence of stereochemistry on the stimulant activity is significant. Combining this molecular information leads to a model for the design of synthetic strigolactones. Nijmegen‐1 is a typical example of a highly active, newly designed synthetic stimulant. The occurrence of natural stimulants not belonging to the strigolactone family, such as cotylenin and parthenolide, is briefly described. The biosynthesis of natural strigolactones from β‐carotene is analysed in terms of isolated and predicted stimulants. This scheme will be helpful in the search for new strigolactones from root exudates. Protein fishing experiments to isolate and characterise the receptor protein using biotin‐labelled GR 24 are described. A receptor protein of 60 kD was identified by this method. Nijmegen‐1 has been tested as a suicidal germination agent in field trials on tobacco infested by Orobanche ramosa L. The preliminary results are highly rewarding. Finally, some future challenges in synthesis are described. These include synthesising new natural and synthetic stimulants and establishing the molecular connection between strigolactones as germination stimulants, as the branching factor for arbuscular mycorrhizal fungi and as an inhibitor of shoot branching. Copyright © 2009 Society of Chemical Industry