一种根瘤菌在单子叶树根瘤培养中生产吲哚乙酸的研究

P. S. Basu, A. C. Ghosh
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引用次数: 34

摘要

对单子叶树Roystonea regia根瘤菌根瘤的研究表明,从根瘤中分离得到的根瘤菌在添加l -色氨酸的基础培养基中产生了大量的吲哚乙酸(IAA) (45.6 μg/ml)。当l -色氨酸添加量为3 mg/ml时,IAA产量达到最佳。葡萄糖和kno3为首选碳源和氮源,最佳浓度分别为1%和0.02%。发现feso4 × 7h2o是唯一能增加IAA产量的金属离子。当基础培养基中添加葡萄糖(1%)、FeSO 4 × 7 h2o (10 μg/ml)、kno3(0.02%)、EDTA (5 μg/ml)和l -色氨酸(3 mg/ml)时,IAA的产量也达到最佳。讨论了IAA在单子叶树-根瘤菌共生中的可能作用。激素的产生被证明是这种共生的有益方面,正如前面在双子叶植物中所显示的那样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Production of Indole Acetic Acid in Culture by a Rhizobium Species from the Root Nodules of a Monocotyledonous Tree, Roystonea regia
The study of the rhizobial root nodules of the monocotyledonous tree Roystonea regia revealed that the Rhizobium sp. isolated from the root nodules produced high amounts (45.6 μg/ml) of indole acetic acid (IAA) from L-tryptophan supplemented basal medium. The IAA production reached its optimum using 3 mg/ml of L-tryptophan. The preferred carbon and nitrogen sources were glucose and KNO 3 and the optimum concentrations 1% and 0.02%, respectively. FeSO 4 x 7 H 2 O was found to be the only metal ion that increased IAA production. An optimum IAA production was also achieved when the basal medium was supplemented with glucose (1%), FeSO 4 x 7 H 2 O (10 μg/ml), KNO 3 (0.02%) as well as EDTA (5 μg/ml) and L-tryptophan (3 mg/ml). The possible role of IAA production in the monocotyledonous tree-Rhizobium symbiosis is discussed. Hormone production is shown to be the beneficial aspect of this symbiosis as shown earlier in dicotyledonous plants.
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