Response of Rhizobium fredii P220 to osmotic shock: Interrelationships between K+, Mg2+, glutamate and homospermidine

Abstract: The response of Rhizobium fredii P220, a salt-tolerant strain of soybean rhizobia, to osmotic shock was investigated by using non-growing washed cells. Rapid changes in K+, Mg2+, glutamate and homospermidine were observed in strain P220 cells subjected to sudden changes in the osmolarity of incubation buffer. Osmotic upshock resulted in elevation of cellular K+ and glutamate, and reduction in cellular homospermidine and Mg2+. When the cells were transferred to upshock buffer lacking K+, the reduction in Mg2+ w… Show more

“…Fig. 3 shows the changes in Homospd, glutamate, K + and Mg 2+ levels in E. freii P220 cells after an osmotic down shock (43). Substantially opposite phenomena to those observed on osmotic up shock (or under high salinity) occur on osmotic down shock; i.e., there is an elevation of Homospd and Mg 2+ content accompanied by a rapid fall in levels of K + and glutamate.…”

“…Microbes in soils are continually exposed to osmotic shock, especially in nutrient-rich soils, because rainfall, drought or freezing brings about a rapid change in the osmolarity in their habitat. Such a sudden change in osmolarity (osmotic down shock or up shock) generally results in a metabolic change of Homospd in rhizobial cells (43). As when under the salt-stressed conditions described above, when fast-growing rhizobial cells are transferred from a low-osmotic buffer to a high-osmotic buffer causing an osmotic up shock, both K + ion and glutamate immediately increase and both Homospd and Mg 2+ decrease (43).…”

“…2) Removal of Mg 2+ from the growth medium results in a significant reduction in cellular Homospd (43). Such a close connection between Mg 2+ and Homospd seems to be a general phenomenon of rhizobia, since a positive correlation between the cellular level of Mg 2+ and that of Homospd was shown in various Rhizobium and Ensifer species grown in a low-or highMg 2+ medium (44).…”

“…Such a sudden change in osmolarity (osmotic down shock or up shock) generally results in a metabolic change of Homospd in rhizobial cells (43). As when under the salt-stressed conditions described above, when fast-growing rhizobial cells are transferred from a low-osmotic buffer to a high-osmotic buffer causing an osmotic up shock, both K + ion and glutamate immediately increase and both Homospd and Mg 2+ decrease (43). Dynamic changes in the cellular concentrations of these components following a rapid osmotic change are typical in fast-growing rhizobia.…”

“…The production of Homospd in rhizobial cells is closely linked to the cellular concentration not only of glutamate but also of the inorganic cation Mg 2+ (43). For the following reasons: 1) Treatment of rhizobial cells with the ionophore A23187, an ion carrier which shows high affinity for Mg…”

Biogenic Amines in Rhizobia and Legume Root Nodules

“…Fig. 3 shows the changes in Homospd, glutamate, K + and Mg 2+ levels in E. freii P220 cells after an osmotic down shock (43). Substantially opposite phenomena to those observed on osmotic up shock (or under high salinity) occur on osmotic down shock; i.e., there is an elevation of Homospd and Mg 2+ content accompanied by a rapid fall in levels of K + and glutamate.…”

“…Microbes in soils are continually exposed to osmotic shock, especially in nutrient-rich soils, because rainfall, drought or freezing brings about a rapid change in the osmolarity in their habitat. Such a sudden change in osmolarity (osmotic down shock or up shock) generally results in a metabolic change of Homospd in rhizobial cells (43). As when under the salt-stressed conditions described above, when fast-growing rhizobial cells are transferred from a low-osmotic buffer to a high-osmotic buffer causing an osmotic up shock, both K + ion and glutamate immediately increase and both Homospd and Mg 2+ decrease (43).…”

“…2) Removal of Mg 2+ from the growth medium results in a significant reduction in cellular Homospd (43). Such a close connection between Mg 2+ and Homospd seems to be a general phenomenon of rhizobia, since a positive correlation between the cellular level of Mg 2+ and that of Homospd was shown in various Rhizobium and Ensifer species grown in a low-or highMg 2+ medium (44).…”

“…Such a sudden change in osmolarity (osmotic down shock or up shock) generally results in a metabolic change of Homospd in rhizobial cells (43). As when under the salt-stressed conditions described above, when fast-growing rhizobial cells are transferred from a low-osmotic buffer to a high-osmotic buffer causing an osmotic up shock, both K + ion and glutamate immediately increase and both Homospd and Mg 2+ decrease (43). Dynamic changes in the cellular concentrations of these components following a rapid osmotic change are typical in fast-growing rhizobia.…”

“…The production of Homospd in rhizobial cells is closely linked to the cellular concentration not only of glutamate but also of the inorganic cation Mg 2+ (43). For the following reasons: 1) Treatment of rhizobial cells with the ionophore A23187, an ion carrier which shows high affinity for Mg…”

Biogenic Amines in Rhizobia and Legume Root Nodules

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