Record ID No. |
103 |
Author(s) |
Dey M., Complainville A., Charon C., Torrizo L., Kondorosi A., Crespi M., Datta S. , 2004 |
Affiliation |
International Rice Research Institute, Plant Breeding Genet & Biochemistry Division, DAPO Box 7777, Manila, Philippines |
Title |
Phytohormonal responses in enod40-overexpressing plants of Medicago truncatula and rice |
Source. Vol.(no):Page |
Physiologia Plantarum.120(1):132-139p. |
Categories |
Arbuscular Mycorrhiza |
Subjects |
Biochemistry Genetics |
Sub-subjects |
Hormones |
Host |
Medicago truncatula, Oryza Sativa |
Organism |
Rhizobium |
Country |
Philippines, Asia |
Abstracts |
Phytohormones are well-known regulators of the symbiotic Rhizobium-legume association in the plant host. The enod40 nodulin gene is associated with the earliest phases of the nodule organogenesis programme in the legume host and modifying its expression resulted in perturbations of nodule
development in Medicago truncatula. Therefore in our pursuit to mimic the initial signal transduction steps of legume nodulation in the alien physiological set-up of a rice plant, we have expressed the Mtenod40 gene in rice. Molecular data confirm the stable integration, inheritance and transcription of the foreign gene in this non-legume. We have compared the phytohormonal responses of Mtenod40-overexpressing and control plants in a
homologous legume background (M.truncatula) and in the non-legume rice. An enod40-mediated root growth response,induced by inhibition of ethylene biosynthesis, was observed in
both plants. On the other hand, a significant differential effect of cytokinins was observed only in rice plants. This suggests that ethylene inhibits enod40 action both in legumes
and non-legumes and reinforces that some of the early signal transduction steps of the nodule developmental programme may function in rice
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