Response to auxin by cells ofRiella helicophylla during reversible arrest in different cell-cycle phases

When cells of the unistratose meristem ofRiella helicophylla (Bory et Mont.) Mont. are reversibly arrested at G1/S transition by treatment with the inhibitor of thymidylate synthase 5-fluorodeoxyuridine, with the inhibitor of DNA polymerase , aphidicolin, or with an inhibitor of late DNA synthesis, 5-aminouracil, they continue to expand. Simultaneous supply of auxin enhances cell expansion, while simultaneous addition of the auxin antagonistp-chlorophenoxyisobutyric acid prevents cell enlargement. When the meristematic cells are reversibly arrested during G1 phase by treatment with chlorsulfuron, an inhibitor of acetolactate synthase, cell size remains unchanged, but it increases when auxin is supplied simultaneously. Simultaneous application of chlorsulfuron during treatment with 5-fluorodeoxyuridine, aphidicolin or 5-aminouracil, prevents cell expansion. After recovery from 5-fluorodeoxyuridine, aphidicolin or 5-aminouracil treatment, the cellular pattern of the meristem is severely disturbed, while in combination withp-chlorophenoxyisobutyric acid or chlorsulfuron, meristem differentiation is almost unaffected. During reactivation of divisional functions in mature cells induced by isolation of tissue fragments, blockage of DNA synthesis by aphidicolin causes an augmentation of rhizoid initials which are characterized by enhanced RNA synthesis. Exogenous supply of auxin is required for outgrowth of these rhizoid initials, while, in untreated fragments, auxin for rhizoid growth is provided probably by the dividing cells. When reactivation of divisional functions in tissue fragments is reversibly inhibited by chlorsulfuron, no changes in the cells are discernible and application of auxin has no effect; after release from blockage the cells regenerate like those in untreated fragments. The results suggest that the phases of the cell cycle differ with regard to auxin synthesis and competence to respond to auxin. Probably, during cycle inhibition at G1/S or S a rising auxin level causes disintegration of cell-cycle events.Abbreviations APH aphidicolin - 5-AU 5-aminouracil - CS chlorsulfuron - 5-FdUrd 5-fluorodeoxyuridine - PCIB p-chloro-phenoxyisobutyric acid Part of doctoral thesis, University of Kassel, GermanyI thank Professor Luise Stange (this Institute) for her suggestions and many stimulating discussions. This research was supported by a scholarship of the Otto-Braun-Fonds and by a grant of the Deutsche Forschungsgemeinschaft to Professor Stange.