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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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書目名稱Sulfur Metabolism in Phototrophic Organisms
編輯Rüdiger Hell,Christiane Dahl,Thomas Leustek
視頻videohttp://file.papertrans.cn/882/881686/881686.mp4
概述First volume that integrates knowledge on sulfur metabolism plants, algae and phototrophic prokaryotes.Comprehensive overview on phototrophic microbial sulfur and energy metabolism.Compilation of bioc
叢書名稱Advances in Photosynthesis and Respiration
圖書封面Titlebook: Sulfur Metabolism in Phototrophic Organisms; Rüdiger Hell,Christiane Dahl,Thomas Leustek Book 2008 Springer Science+Business Media B.V. 20
描述.Sulfur is one of the most versatile elements in life due to its reactivity in different oxidation and reduction states. In phototrophic organisms, the redox properties of sulfur in proteins, and of sulfur-containing metabolites, are particularly important in the interaction between the reductive assimilation processes of photosynthesis and reactive oxygen species that arise as by-products of electron transport chains. Thiol groups in proteins and metabolites are targets of reactive oxygen species, resulting in potential damage and at the same time giving rise to redox signal cascades that trigger repair reactions and adaptation to environmental stress. Further, reduced sulfur compounds play a prominent role as electron donors for photosynthetic carbon dioxide fixation in anoxygenic phototrophic sulfur bacteria. Interest in the investigation of the multiple functions of sulfur-related processes has increased exponentially in recent years, especially in molecular and cellular biology, biochemistry, agrobiotechnology and ecology. This book provides, for the first time, in-depth and integrated coverage of the functions of sulfur in phototrophic organisms including bacteria, plants and
出版日期Book 2008
關(guān)鍵詞Oxidation; agrobiotechnology; algae; biochemistry; biotechnology; metabolism; organisma; oxidization; photos
版次1
doihttps://doi.org/10.1007/978-1-4020-6863-8
isbn_softcover978-90-481-7742-4
isbn_ebook978-1-4020-6863-8Series ISSN 1572-0233 Series E-ISSN 2215-0102
issn_series 1572-0233
copyrightSpringer Science+Business Media B.V. 2008
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Metabolism of Methionine in Plants and Phototrophic Bacterialant growth and responses to the environment. New genetic and molecular data suggest that methionine synthesis and catabolism are coordinately regulated by novel post-transcriptional and post-translational mechanisms. This review focuses on new features reported for the molecular and biochemical asp
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Sulfotransferases from Plants, Algae and Phototrophic Bacteria group of various substrates in a process called the sulfonation reaction. These enzymes share highly conserved sequence regions across all kingdoms; however, their substrates and physiological function are predicted to be very diverse. In mammals, the sulfonation reaction is involved in mechanisms
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Cysteine Desulfurase-Mediated Sulfur Donation Pathways in Plants and Phototrophic Bacterian and molybdenum cofactor. NifS-like cysteine desulfurase enzymes are key components in these pathways, catalyzing the initial release of S from cysteine. NifS-like enzymes do not work alone but are the first component of a sulfur transfer pathway from cysteine to cofactor. ., NifS-like cysteine des
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Biosynthesis, Compartmentation and Cellular Functions of Glutathione in Plant Cellste homologous tripeptides to similar levels. The broad range of functions of glutathione in terms of detoxification of heavy metals, xenobiotics and reactive oxygen species (ROS) has been highlighted in numerous reviews before. Glutathione .-conjugates formed during detoxification of electrophilic x
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