Add to ORKGThe Medicago sativa–Sinorhizobium symbiosis is challenged by acidity, resulting in generally poor nodulation and production. Medicago murex, however, can nodulate and grow at low pH. The effect of low pH on signal exchange in the Sinorhizobium–Medicago symbiosis was studied to gain a greater understanding of the basis for poor nodulation of M. sativa compared to M. murex. Root exudates from M. sativa and M. murex grown in buffered nutrient solution at pH 4.5, 5.8 and 7.0, were collected to measure the expression of nodB induction in Sinorhizobium. A nodB–gusA fusion was constructed and inserted into Sinorhizobium medicae strains WSM419 (acid tolerant) and CC169 (acid sensitive). We identified greater induction by root exudates from both Med...
Phosphorus (P)-deficiency is a major abiotic stress that limits legume growth in many types of soils...
Wegener C, Schroder S, Kapp D, et al. Genetic uniformity and symbiotic properties of acid-tolerant a...
Root-induced pH changes in the rhizosphere significantly modified the root environment and the mobil...
Medicago murex nodulates faster and produces more nodules than Medicago sativa in acidic sandy soils...
Medicago murex nodulates faster and produces more nodules than Medicago sativa in acidic sandy soils...
Nodulation of Medicago sativa by Sinorhizobium meliloti is challenged by acidity, but the ability of...
Three experiments were undertaken to investigate the mechanisms used by the annual medic species, Me...
SummaryRhizobium tropici CIAT899 has been cataloged as a nodulator of bean, a plant often growing in...
The mutualistic legume–rhizobia symbiosis that leads to nodule formation and ensuing nitrogen fixati...
In acid soil, low pH, reduced availability of nutrients, and toxicity of Al and Mn limit plant growt...
Sinorhizobium meliloti associates with Medicago and Melilotus species to develop nitrogen-fixing sym...
The size of the background rhizobial population can often determine the success of field nodulation ...
Sinorhizobium meliloti associates with Medicago and Melilotus species to develop nitrogen-fixing sym...
Abstract: In present study, a total of 15 rhizobial isolates were isolated from the root nodules of ...
The present research project was undertaken to study whether S. medicae WSM 419 can induce an acid t...
Phosphorus (P)-deficiency is a major abiotic stress that limits legume growth in many types of soils...
Wegener C, Schroder S, Kapp D, et al. Genetic uniformity and symbiotic properties of acid-tolerant a...
Root-induced pH changes in the rhizosphere significantly modified the root environment and the mobil...
Medicago murex nodulates faster and produces more nodules than Medicago sativa in acidic sandy soils...
Medicago murex nodulates faster and produces more nodules than Medicago sativa in acidic sandy soils...
Nodulation of Medicago sativa by Sinorhizobium meliloti is challenged by acidity, but the ability of...
Three experiments were undertaken to investigate the mechanisms used by the annual medic species, Me...
SummaryRhizobium tropici CIAT899 has been cataloged as a nodulator of bean, a plant often growing in...
The mutualistic legume–rhizobia symbiosis that leads to nodule formation and ensuing nitrogen fixati...
In acid soil, low pH, reduced availability of nutrients, and toxicity of Al and Mn limit plant growt...
Sinorhizobium meliloti associates with Medicago and Melilotus species to develop nitrogen-fixing sym...
The size of the background rhizobial population can often determine the success of field nodulation ...
Sinorhizobium meliloti associates with Medicago and Melilotus species to develop nitrogen-fixing sym...
Abstract: In present study, a total of 15 rhizobial isolates were isolated from the root nodules of ...
The present research project was undertaken to study whether S. medicae WSM 419 can induce an acid t...
Phosphorus (P)-deficiency is a major abiotic stress that limits legume growth in many types of soils...
Wegener C, Schroder S, Kapp D, et al. Genetic uniformity and symbiotic properties of acid-tolerant a...
Root-induced pH changes in the rhizosphere significantly modified the root environment and the mobil...