The levels of different cytokinins, indole-3-acetic acid (IAA) and abscisic acid (ABA) in roots of Glycine max [L.] Merr. cv. Bragg and its supernodulating mutant nts382 were compared for the first time. Forty-eight hours after inoculation with Bradyrhizobium, quantitative and qualitative differences were found in the root's endogenous hormone status between cultivar Bragg and the mutant nts382. The six quantified cytokinins, ranking similarly in each genotype, were present at higher concentrations (30-196% on average for isopentenyl adenosine and dihydrozeatin riboside, respectively) in mutant roots. By contrast, the ABA content was 2-fold higher in Bragg, while the basal levels of IAA [0.53 micromol (g DW)(-1), on average] were similar in both genotypes. In 1 mM NO3(-)-fed Bragg roots 48 h post-inoculation, IAA, ABA and the cytokinins isopentenyl adenine, and isopentenyl adenosine quantitatively increased with respect to uninoculated controls. However, only the two cytokinins increased in the mutant. High NO3- (8 mM) markedly reduced root auxin concentration, and neither genotypic differences nor the inoculation-induced increase in auxin concentration in Bragg was observed under these conditions. Cytokinins and ABA, on the other hand, were little affected by 8 mM NO3-. Root IAA/cytokinin and ABA/cytokinin ratios were always higher in Bragg relative to the mutant, and responded to inoculation (mainly in Bragg) and nitrate (both genotypes). The overall results are consistent with the auxin-burst-control hypothesis for the explanation of autoregulation and supernodulation in soybean. However, they are still inconclusive with respect to the inhibitory effect of NO3-.
Experimental conditions were optimized for hemp, a difficult to transform plant, to be effectively infected with either Ri or Ti plasmid-bearing agrobacteria and to establish stably transformed tissues. Hypocotyl of intact seedlings was the most responsive material and the response depended on both bacterial strain and plant variety. Transformed tissues, hairy roots and tumors, were cultured and stabilized in vitro and showed the characteristic traits of fast and phytohormone-independent growth as well as high incidence of lateral branching and abundance of root hairs in the case of roots. They all contained T-DNA of the corresponding Ri or Ti plasmid as revealed by PCR analysis with specific primers and further hairy roots induced by AR10GUS strain showed normal pattern of b-glucuronidase positive staining. To our knowledge, this represents the first reported protocol for the establishment of Cannabis sativa hairy root cultures.
Previously, we reported (a) a positive correlation between the nitrate concentrations in growth medium and ethylene evolved from uninoculated and inoculated alfalfa (Medicago sativa) roots and (b) a negative correlation between ethylene evolution and nodulation. Here, we report that the inhibitory effect of N03-on nodulation of alfalfa can be eliminated by the ethylene inhibitor aminoethoxyvinylglycine (AVG). This effect was probably related to the strong inhibition (90%) of ethylene biosynthesis caused by AVG in these inoculated and N03-treated roots. These results support our hypothesis that the inhibitory effect of N03-is mediated through the phytohormone ethylene. A possible role of endogenous ethylene in the autoregulation of nodulation also is discussed. AVG at 10 micromolar significantly (P < 0.05) increased total nitrogenase activity (acetylene reduction) in 2.5 and 5 millimolar N03-fed plants probably as a result of the very high stimulation of nodulation.The formation of a nitrogen-fixing root nodule is the consequence of a series of interactions between host plant and microsymbiont. The process is regulated by internal plant factors, which are termed autoregulation factors (5, 24) and environmental factors, of which NO3-is a major component in the inhibition of both nodulation and N2 fixation (8,28). The effect of nitrate is exerted soon after inoculation, inhibiting both initial cortical cells divisions and infection thread formation (21). Moreover, an interaction between NO3-and the autoregulation signal during
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