Determination of Leghemoglobin Components and Xylem Sap Composition by Capillary Electrophoresis in Hypernodulation Soybean Mutants Cultivated in the Field
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概要
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The hypernodulation soybean mutant lines (NOD1-3, NOD2-4, NOD3-7) and their parent Williams, and the mutant En6500 and its parent Enrei were cultivated in a sandy dune field in Niigata, and the nodules and root bleeding xylem sap were sampled at 50, 70, 90, and 120 d after planting (DAP). The nodule size distribution patterns and concentration of leghemoglobin components were determined. The number of nodules of the hypernodulation mutant lines was about two to three times higher than that of the parent lines irrespective of the sampling date. At 50 DAP the nodule size was relatively smaller in the hypernodulation mutant lines, and the total dry weight of the nodules was almost the same in the mutant lines and their parents. At 70 DAP and 90 DAP, the size distribution of the hypernodulation mutant nodules became almost the same as that of the parent lines, and both the number and total dry weight of the nodules were higher than those of the parent lines. The concentration of four Lb components was separately measured by capillary electrophoresis. The concentration of the Lb components in the hypernodulation mutant lines tended to be lower than in the parents, but the component ratios were not different between the hypernodulation mutants and their parents. Under field conditions, plant growth and nodulation characteristics were more similar between mutants and parents than in the hydroponic culture reported previously, although the mutants did exhibit hypernodulation traits. These findings suggest that the decrease in the Lb concentration and the different Lb components ratios in the mutants may be caused by secondary effects of excess nodulation, such as photosynthate deficiency, rather than by a genetic defect in mutation. The concentration of major nitrogenous compounds (allantoic acid, allantoin, asparagine, aspartic acid, and nitrate) in thexylem sap was also measured by capillary electrophoresis. The concentration of ureides and nitrate in xylem sap decreased with the plant age, but the asparagine concentration increased during the same period. The concentrations of ureides and asparagine were higher, and the nitrate concentration was lower in the mutant lines than in their parents, possibly due to the higher dependence on N_2 fixation than NO_3^- utilization. In the xylem sap, nitrate was the major inorganic anion followed by phosphate, sulfate, and chloride, and potassium was the major cation followed by calcium or magnesium and sodium.
- 社団法人日本土壌肥料学会の論文
著者
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Sueyoshi Kuni
Graduate School Of Science And Technology ; Niigata University
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OHTAKE Norikuni
Graduate School of Science and Technology ; Niigata University
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OHYAMA Takuji
Graduate School of Science and Technology ; Niigata University
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Ohyama Takuji
Faculty of Agriculture, Niigata University
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Yashima Hiroyuki
Graduate School Of Science And Technology Niigata University
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Ohyama Takuji
Faculty Of Agriculture Niigata University
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Akao S
National Institute Of Agrobiological Resources
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Sato A
Faculty Of Agriculture Miyazaki University
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Akao Shoichiro
National Institute Of Agrobiological Resources
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OHTAKE Norikuni
Faculty of Agriculture, Niigata University
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SUEYOSHI Kuni
Faculty of Agriculture, Niigata University
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Sato T
Akita Prefectural Univ. Akita
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HARPER James
Plant Physiology and Genetic Research Unit USDA
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SATO Takashi
Graduate School of Informatics, Kyoto University
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YASHIMA Hiroyuki
Saitama University
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Ohtake Norikuni
Dept. Appl. Biol. Chem. Fac. Agric. Niigata Univ.
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Harper J
Plant Physiology And Genetics Research Unit
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Sugimoto T
Univ. Tsukuba Tsukuba Jpn
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Sueyoshi Kuni
Department Of Applied Biological Chemistry Faculty Of Agriculture Niigata University
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Sato Takashi
Graduate School Of Informatics Kyoto University
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Sato T
Faculty Of Bioresource Sciences Akita Prefectural University
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Sugimoto T
Hayashibara Biochemical Laboratories Inc.
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Akao Shoichiro
National Institure Of Agrobiological Resources
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