Sy Mame Ourèye, Hocher Valérie, Gherbi Hassen, Laplaze Laurent, Auguy Florence, Bogusz Didier, Franche Claudine. (2007). The cell-cycle promoter cdc2aAt from Arabidopsis thaliana is induced in the lateral roots of the actinorhizal tree Allocasuarina verticillata during the early stages of the symbiotic interaction with Frankia. Physiologia Plantarum, 130 (3), p. 409-417. ISSN 0031-9317.
Titre du document
The cell-cycle promoter cdc2aAt from Arabidopsis thaliana is induced in the lateral roots of the actinorhizal tree Allocasuarina verticillata during the early stages of the symbiotic interaction with Frankia
Physiologia Plantarum, 2007,
130 (3), p. 409-417 ISSN 0031-9317
The symbiosis between the actinorhizal tree Allocasuarina verticillata and the actinomycete Frankia leads to the formation of root nodules inside which bacteria fix atmospheric nitrogen. Actinorhizal nodule organogenesis starts with the induction of cell divisions in the root cortex and in the pericycle cells opposite protoxylem poles near Frankia-infected root hairs. To study the ability of Frankia to induce progression through the cell cycle, we monitored the expression of the beta-glucuronidase (gus) gene driven by the promoter from cdc2aAt, an Arabidopsis cyclin-dependent kinase gene that displays competence for cell division, during plant growth and nodule ontogenesis. In non-symbiotic tissues, the gus gene was mainly expressed in primary and secondary meristems of roots and shoots. Auxins and cytokinins were found to induce reporter gene activity in the root system of whole plants, showing that the promoter cdc2aAt displayed the same regulation by hormones in Allocasuarina as that reported in Arabidopsis. In transgenic nodules, gus expression was found to be restricted to the phellogen. During the early stages of the interaction between Frankia and the plant root system, cdc2aAt was strongly induced in the lateral roots surrounded by hyphae of the actinomycete. Histochemical analysis of beta-glucuronidase activity revealed that cells from the pericycle opposite protoxylem poles were very deeply stained. These data indicate that upon Frankia infection, cells from the lateral roots, and notably pericycle cells that can give rise to a nodule or a root primordium, prepare to re-enter the cell cycle.
