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Delivery of O2 to bacteroids in soybean nodule cells: Consideration of gradients of concentration of free, dissolved O2 in and near symbiosomes and beneath intercellular spaces (1996)

Bergersen, F. J.

Springer

Protoplasma 191 (1996), S. 9-20

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ISSN: 1615-6102

Keywords: Diffusion ; Intercellular spaces ; Mitochondria ; Symbiosomes ; Nitrogen fixation ; Oxygen

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Based on a simulation model of the structure of and distribution of O2 within infected cells of soybean nodules, gradients of concentration of dissolved O2 ([O2]) have been calculated within and between symbiosomes embedded in host cytoplasm, through which the flux of O2 to the symbiosomes is facilitated by leghaemoglobin. As a consequence of facilitation, gradients of [O2] in cytoplasm between symbiosomes are very small. Within symbiosomes, from which leghaemoglobin is considered to be absent, respiration by bacteroids generates steeper gradients of [O2], thus restricting respiration and N2 fixation. However, if bacteroid mass is considered to be randomly distributed within a symbiosome, about 80% of this mass lies within about 0.6 μm of the surface (the peribacteroid membrane). Consequently, respiration within a symbiosome was calculated to be between 65% and 92% of that attained if bacteroids were directly in contact with the cytoplasm. For N2 fixation, the corresponding values were 44% to 91%. In cytoplasm, near the surface of a symbiosome, there is a boundary layer in which equilibrium between O2, leghaemoglobin and oxyleghaemoglobin is perturbed by O2 consumption within. Calculations of the thickness of the boundary layers gave values of only 3.65 to 3.75×10−9 m, thus they had little effect on calculated gradients of [O2] in cytoplasm. In contrast, perturbations of the leghaemoglobin oxygenation equilibrium affected layers of cytoplasm beneath intercellular spaces to a depth of 0.15 to 0.3×10−6 m in the physiological range of volume average [O2]. This affected gradients of [O2] in the cytoplasm near intercellular spaces. Revisions have been made to the model cell, incorporating these new calculations. Results suggest that infected nodule cells may be able to withstand 1–2 μM O2 in the outermost layers of cytoplasm without inhibition of N2 fixation caused by excessive O2 within the symbiosomes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01280821

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Distribution of O2 within infected cells of soybean root nodules: a new simulation (1994)

Bergersen, F. J.

Springer

Protoplasma 183 (1994), S. 49-61

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ISSN: 1615-6102

Keywords: Diffusion ; Intercellular spaces ; Mitochondria ; Nitrogen fixation ; Oxyleghaemoglobin ; Simulation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary A simulation model is presented for the distribution and consumption of O2 in infected cells of soybean root nodule central tissue. It differs from earlier models in closer adherence to observed structure and embodies new morphometric data about the distribution of 〉 12,000 mitochondria per cell and about the geometry of the gas-filled intercellular spaces near which the mitochondria are located. The model cell is a rhombic dodecahedron and O2 enters only through interfaces (totalling 26% of the cell surface) with 24 gas-filled intercellular spaces. These spaces are located at the edges of each rhombic face of the cell, forming an interconnected network over the cell suface. Next, O2 is distributed through the cytoplasm by a leghaemoglobin-facilitated diffusive process, initially between the mitochondria and amyloplasts in the outer layers of the cell and then between 〉 6,000 symbiosomes (each containing 6 bacteroids) towards the central nucleus. The symbiosomes and mitochondria consume O2, but impede its diffusion; all O2 entering symbiosomes is considered to be consumed there. For the calculations, the cell is considered to consist of 24 structural units, each beneath one of the intercellular spaces, and each is divided into 126 layers, 0.2 μm thick, in and through which O2 is consumed and diffused. Rates of consumption of O2 and of N2 fixation in each diffusion layer were calculated from previously-established kinetics of respiration by mitochondria and bacteroids isolated from soybean nodules and from established relationships between bacteroid respiration and N2 fixation. The effects of varying the O2-supply concentration and the concentration and type of energy-yielding substrates were included in the simulations. When the model cell was supplied with 0.5 mM malate, mitochondria accounted for a minimum of 50% of the respiration of the model cell and this percentage increased with increased concentration of the O2 supply. Gradients of concentrations of free O2 dissolved in the cytoplasm were steepest near the cell surface and in this location respiration by mitochondria appeared to exert a marked protective effect for nitrogen fixation in layers deeper within the cell. Estimates of N2 fixation per nodule, calculated from the model cell, were similar to those calculated from field measurements.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01276812

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Measurement of N2 fixation in maize (Zea mays L.)—ricebean (Vigna umbellata [Thunb.] Ohwi and Ohashi) intercrops (1988)

Rerkasem, b. ; Rerkasem, K. ; Peoples, M. B. ; [et al.]

Springer

Plant and soil 108 (1988), S. 125-135

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ISSN: 1573-5036

Keywords: intercropping ; N2 fixation ; natural15N abundance ; ureides ; Vigna umbellata ; Zea mays

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract The yield of N in maize (Zea mays L.) and ricebean (Vigna umbellata [Thumb.] Ohwi and Ohashi) were compared on a Tropoqualf soil in North Thailand in 1984 and 1985. Both species were grown in field plots in monoculture or as intercrops at a constant planting density equivalent to 8 maize or 16 ricebean plants per m2. The contribution of symbiotic N2 fixation to ricebean growth was estimated from measurements of the natural abundance of15N (δ15N) in shoot nitrogen and from analysis of ureides in xylem sap vacuumextracted from detached stems. The natural abundance of15N in the intercropped ricebean was found to be considerably less than that in monoculture in both growing seasons. Using maize and a weed (Ageratum conyzoides L.) as non-fixing15N reference plants the proportions (P 15N) of ricebean shoot N derived from N2 fixation ranged from 0.27 to 0.36 in monoculture ricebean up to 0.86 when grown in a 75% maize: 25% ricebean intercrop. When glasshouse-derived calibration curves were used to calculate plant proportional N2 fixation (Pur) from the relative ureide contents of field collected xylem exudates, the contribution of N2 fixation to ricebean N yields throughout the 1985 growing season were greater in intercrop than in monocrop even at the lowest maize:legume ratio (25∶75). Seasonal patterns of sap ureide abundance indicated that N2 fixation was greatest at the time of ricebean podset. The averagePur andP 15N in ricebean during the first 90 days of growth showed identical rankings of monocrop and intercrop treatments in terms of N2 fixation, although the two sets ofP values were different. Nonetheless, seasonal estimates of N2 fixation during the entire 147 days of legume growth determined from ureide analyses indicated that equivalent amounts of N could be fixed by ricebean in a 75∶25 intercrop and in monoculture despite the former being planted at one-quarter the density.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02370107

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