Studies on the localization of infectible cells onAlnus glutinosa roots

Summary Four Frankia isolates ofAlnus glutinosa were studied in relation to the location of infectible cells along 10 day oldAlnus glutinosa roots. For all isolates tested a clear zonation in infectible cells was found just above the position of the root tip at the time of infection.Differences in the length of the root nodule induction zone were observed, depending on the isolate and possibly also depending on the age of the Frankia culture tested. A second infection zone was found which was the only infectible zone by an isolate with a retarded infective potential (LDAgp1). Root hair deformation is clearly correlated with the presence of Frankia near axenic alder plants, although actual contact of root hairs and the symbiont is not prerequisite. Some evidence is presented indicating that the type of deformation might be correlated with the Frankia strain.     

The ethylene-inhibitor aminoethoxyvinylglycine restores normal nodulation by Rhizobium leguminosarum biovar. viciae on Vicia sativa subsp. nigra by suppressing the ‘Thick and short roots’ phenotype

Nodulation of Vicia sativa subsp. nigra L. by Rhizobium bacteria is coupled to the development of thick and short roots (Tsr). This root phenotype as well as root-hair induction (Hai) and root-hair deformation (Had) are caused by a factor(s) produced by the bacteria in response to plant flavonoids. When very low inoculum concentrations (0.5–5 bacteria·ml^-1) were used, V. sativa plants did not develop the Tsr phenotype and became nodulated earlier than plants with Tsr roots. Furthermore, the nodules of these plants were located on the primary root in contrast to nodules on Tsr roots, which were all located at sites of lateral-root emergence. The average numbers of nodules per plant were not significantly different for these two types of nodulation. Root-growth inhibition and Hai, but not Had, could be mimicked by ethephon, and inhibited by aminoethoxyvinylglycine (AVG). Addition of AVG to co-cultures of Vicia sativa and the standard inoculum concentration of 5·10⁵ bacteria·ml^-1 suppressed the development of the Tsr phenotype and restored nodulation to the pattern that was observed with very low concentrations of bacteria (0.5–5 bacteria·ml^-1). The delay in nodulation on Tsr roots appeared to be caused by the fact that nodule meristems did not develop on the primary root, but only on the emerging laterals. The relationship between Tsr, Hai, Had, and nodulation is discussed.Abbreviations AVG aminoethoxyvinylglycine - cfu colonyforming units - Had root-hair deformation - Hai root-hair induction - NB naringenin-bacteria filtrate - Tsr Thick and short roots