Titlebook: Sulfur Metabolism in Phototrophic Organisms; Rüdiger Hell,Christiane Dahl,Thomas Leustek Book 2008 Springer Science+Business Media B.V. 20

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Uptake, Distribution and Subcellular Transport of Sulfate tissues dependent on developmental cues and sulfate availability. A vital transport step is the transport into the plastid, for which a transporter has only been identified in algae and for which no vascular plant homologue is known. The expression of many sulfate transporters responds to availabil

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Phylogenetic Analysis of Sulfate Assimilation and Cysteine Biosynthesis in Phototrophic Organisms analysis revealed very complicated relations between the different lineages and different evolutionary histories of the individual genes of the pathway. Whereas, for example, plant sulfite reductase is clearly of a cyanobacterial origin, the other genes in the pathway, although being plastidial are

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Sulfotransferases from Plants, Algae and Phototrophic Bacteriaterization of brassinosteroid, hydroxyjasmonate, desulfoglucosinolate and flavonoid SULTs. However, these efforts are hindered by a limited knowledge of plant sulfated metabolites. A detailed analysis of plant SULT sequences revealed that at present, phylogeny is of limited value to predict biochemi

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Cysteine Desulfurase-Mediated Sulfur Donation Pathways in Plants and Phototrophic Bacteriastem operates in photosynthetic bacteria. While we are just beginning to unravel the mechanisms of S-dependent cofactor assembly systems it is already evident that these pathways play pivotal roles in cellular metabolism, and particularly are important to the function of plant plastids.

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Sulfolipid Biosynthesis and Function in Plantsbiotechnological applications. As bacterial and plant genes encoding sulfolipid enzymes are now available, biotechnological approaches can be developed to produce the plant sulfolipid in sufficient amounts to pursue the development of practical applications.