Journal Article10.1016/0304-4211(76)90088-2
Carbohydrates in soybean nodules: Identification of compounds and possible relationships to nitrogen fixation
John G. Streeter,Mary E. Bosler +1 more
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TL;DR: In this article, gas-liquid chromatography (GLC) was used to identify and quantify the following carbohydrates in soybean (Glycine max (L.) Merr.) nodules.
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About: This article is published in Plant Science Letters. The article was published on 01 Nov 1976. The article focuses on the topics: Pinitol & Sucrose.
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Citations
Lotus japonicus Metabolic Profiling. Development of Gas Chromatography-Mass Spectrometry Resources for the Study of Plant-Microbe Interactions
TL;DR: The resources and tools described here, together with ongoing efforts in the areas of genome sequencing, and transcriptome and proteome analysis of L. japonicus and Mesorhizobium loti, should lead to a better understanding of nodule metabolism that underpins SNF.
201
Carbon and nitrogen metabolism in legume root nodules
TL;DR: The pathways of carbon flow in nitrogen metabolism, particularly in relation to the synthesis of ureides and the regulation of carbon metabolism, remain key areas for future research in symbiotic nitrogen fixation.
167
Carbohydrate Metabolism in Rhizobium trifolii: Identification and Symbiotic Properties of Mutants
TL;DR: All the mutants, including a glk fup double mutant, formed an effective symbiosis on red clover, suggesting that neither glucose, fructose nor sucrose are used by the bacteroids to provide ATP and reductant for nitrogen fixation.
137
Asparaginase and Asparagine Transaminase in Soybean Leaves and Root Nodules
TL;DR: The relatively high activity, stability, and Km of the enzyme complicate efforts to study asparagine synthesis in the nodule, an organ known to export large amounts of this amino acid.
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Carbohydrates in Soybean Nodules: II. DISTRIBUTION OF COMPOUNDS IN SEEDLINGS DURING THE ONSET OF NITROGEN FIXATION.
TL;DR: Comparison of nonnodulated roots, nodulated roots (after removal of nodules), and nodules indicated that nodules may compete successfully with roots for carbohydrates, especially the disaccharides sucrose, alpha,alpha-trehalose, and maltose.
References
The Metabolism of α,α-Trehalose*
TL;DR: In this paper, the role of trehalose in the growth of Mycobacterium smegmutis under various conditions of nitrogen limitation was examined, and the results of labeling studies suggested that the free trehaloses in these cells may be utilized for purposes except as an energy reserve, whereas glycogen is probably stored mainly as a reserve.
534
Routine analysis by gas-liquid chromato- graphy of soluble carbohydrates in extracts of plant tissues ii. quantitative analysis of standard carbohydrates, and the separation and estimation of soluble sugars and polyols from a variety of plant tissues
P. M. Holligan,E. A. DREWt +1 more
TL;DR: In this paper, the authors present a collection and extraction of plant tissues and extracts from the plant tissues, and then use them for the identification and estimation of carbohydrates in: Algae, Fungi, Lichens, Bryophytes, Pteridophytes.
145
Metabolism of soybean leaves. IV. Translocation from soybean leaves.
Leo P. Vernon,S. Aronoff +1 more
TL;DR: It is suggested that 2,4-D affects plants by decreasing the rate of sugar diffusion from the site of photosynthesis into the main translocation stream.
125
Thin-layer chromatography of carbohydrates in the presence of bisulfite.
TL;DR: A rapid method for separating carbohydrates by means of thin-layer chromatography on silica gel G mixed with a small amount of sodium bisulfite has been developed and the carbohydrates gave characteristic colors with the reagents, thus making identification easier.
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