Characterization of the temperate phage vB_RleM_PPF1 and its site-specific integration into the Rhizobium leguminosarum F1 genome.

Bacteriophages may play an important role in regulating population size and diversity of the root nodule symbiont Rhizobium leguminosarum, as well as participating in horizontal gene transfer. Although phages that infect this species have been isolated in the past, our knowledge of their molecular biology, and especially of genome composition, is extremely limited, and this lack of information impacts on the ability to assess phage population dynamics and limits potential agricultural applications of rhizobiophages. To help address this deficit in available sequence and biological information, the complete genome sequence of the Myoviridae temperate phage PPF1 that infects R. leguminosarum biovar viciae strain F1 was determined. The genome is 54,506 bp in length with an average G+C content of 61.9 %. The genome contains 94 putative open reading frames (ORFs) and 74.5 % of these predicted ORFs share homology at the protein level with previously reported sequences in the database. However, putative functions could only be assigned to 25.5 % (24 ORFs) of the predicted genes. PPF1 was capable of efficiently lysogenizing its rhizobial host R. leguminosarum F1. The site-specific recombination system of the phage targets an integration site that lies within a putative tRNA-Pro (CGG) gene in R. leguminosarum F1. Upon integration, the phage is capable of restoring the disrupted tRNA gene, owing to the 50 bp homologous sequence (att core region) it shares with its rhizobial host genome. Phage PPF1 is the first temperate phage infecting members of the genus Rhizobium for which a complete genome sequence, as well as other biological data such as the integration site, is available.

Efectividad de cepas rizobianas de frijolbajo diferentes regímenes de fósforo / Effectiveness of cowpea rhizobial strains under different phosphorus regimes

En Venezuela, el frijol representa una alternativa a la proteína animal, debido a su alto consumo y valor nutritivo, por ello se ha estimulado la implementación de programas para reactivar la economía de los pequeños y medianos productores, a fin de incrementar su producción y así tener mayor disponibilidad de proteína de alta calidad a bajo costo; de manera que, los estudios encaminados a mejorar su cultivo, son acertados. Se evaluó la efectividad de cepas rizobianas de crecimiento lento (cl) y rápido (cr) en frijol (Vigna unguiculata (L.) Walp.) cultivar TC9-6 en varios regímenes de fósforo (0, 20, 40 y 80 kgP2O5 ha-1), con un diseño experimental de bloques al azar con arreglo factorial. Las plantas se cultivaron en 4 kg de suelo de sabana 45 días y las cepas en caldo de levadura y manitol: 5 (cr: JV91) y 10 (cl: JV94) días. La inoculación (2 ml cada vez) fue aplicada a la siembra y 6 días más tarde. La utilización de fósforo (40-80 kgP2O5 ha-1) incrementó la nodulación (número, peso seco total e individual de nódulos) y favoreció la aparición de nódulos rojos; así mismo, acrecentó el peso de la materia seca, la altura, el número de hojas y la concentración de nitrógeno del vástago. Los valores fueron similares con ambos tipos de cepas (efectividad similar) y para las dos concentraciones (40-80 kgP2O5 ha-1), con las menores estimaciones para 0 y 20 kgP2O5 ha-1. De acuerdo con los resultados las concentraciones de 40 y 80 kgP2O5 ha-1 fueron las más favorables para el crecimiento y la nodulación de frijol.

In Venezuela, cowpea is an alternative to animal protein due to its high consumption and nutritious value, so it has stimulated the implementation of programs to reactivate the small and medium producers economy, in order to increase its production and to have major high quality protein availability at low cost; so that, the studies carry on to improve its cultivation, are well-aimed. The effectiveness of slow (sg) and fast (fg) growing rhizobial strains was evaluated in cowpea (Vigna unguiculata (L.) Walp) cultivar TC9-6 at various phosphorus regimes (0, 20, 40 and 80 kgP2O5 ha-1): randomized block design with factorial arrangement. Plants were cultivated in 4 kg savannah soil: 45 days, and the strains in yeast and mannitol broth: 5 (fg: JV91) and 10 (sg: JV94) days. The inoculation (2 ml each time) was applied at sowing time and 6 days later. Phosphorus utilization (40-80 kgP2O5 ha-1) increased nodulation (nodule number, total and individual dry weight) and favoured nodule red colour appearance; also, incremented shoot dry matter weight, height, leaves number and nitrogen concentration. Values were similar with both strain types (similar effectiveness) and to the two doses (40-80 kgP2O5 ha-1), with lower estimations to 0 and 20 kgP2O5 ha-1. Accordingly with the results, the doses of 40 and 80 kgP2O5 ha-1 were the most favourable to cowpea growth and nodulation.

Identification and assessment of symbiotic effectiveness of phage-typed Rhizobium leguminosarum strains on lentil (Lens culinaris Medik) cultivars.

Symbiotic effectiveness of 19 indigenous and two exotic (USDA 2426 and USDA 2431) strains of lentil Rhizobium belonging to different phage-sensitive and phage-resistant groups was compared under axenic condition. Four strains (USDA 2431, BHULR 104, BHULR 113, and BHULR 115) sensitive to different phages were found significantly superior over others in terms of nodule number, acetylene reduction activity, and total dry weight per plant. Inoculation response of these strains was then evaluated on six lentil cultivars under field condition. A significant symbiotic interaction between rhizobial strains and lentil cultivars was observed. Grain yield enhancement was noticed by the compatible interaction of lentil cultivars HUL-57, L-4147, K-75, and PL-4/DPL-15/DPL-62 with rhizobial strains USDA 2431, BHULR 104, BHULR 113, and BHULR 115, respectively. The authentication of rhizobial strains was accomplished through 16S rDNA sequence analysis. All rhizobial strains had close matching with R. leguminosarum bv. viciae strains. The results have shown that phages can trustfully help selecting out the symbiotically efficient most rhizobial strains for advantageous use with lentil cultivars, in order to strengthen the BNF-based future lentil breeding programs.

Characterization of two novel Rhizobium leguminosarum bacteriophages from a field release site of genetically-modified rhizobia.

Two Rhizobium leguminosarum biovar viceae bacteriophages with contrasting properties were isolated from a field site in which the survival of genetically modified R. leguminosarum inoculants had been monitored for several years. Inoculant strain RSM2004 was used as the indicator for phage isolation and propagation. One phage, RL1RES, was temperate and could not replicate in any of the 42 indigenous R. leguminosarum field isolates tested although nested PCR indicated that phage sequences were present in six of the isolates. The second phage, RL2RES, was virulent, capable of generalised transduction, contained DNA with modified cytosine residues, and was capable of infecting all field isolates tested although the GM inoculant strain CT0370 was resistant. Sequence with homology to RL2RES was detected by nested PCR in six of the 42 field-isolates. These were not the same isolates that showed homology to RL1RES. The implication of these findings for the survival of rhizobial inoculants, and the ecology of phages and their host bacteria, are discussed.