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Regressive Evolution of Photosynthesis in the Roseobacter Clade 玫瑰杆菌支系光合作用的退化进化
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-397923-0.00013-8
M. Koblížek, Yonghui Zeng, A. Horák, M. Oborník
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引用次数: 19
Biosynthesis and Catabolism of Purine Alkaloids 嘌呤类生物碱的生物合成与分解代谢
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-408061-4.00004-3
H. Ashihara, T. Yokota, A. Crozier
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引用次数: 23
Genomics of Salt Acclimation: Synthesis of Compatible Solutes among Cyanobacteria 盐驯化的基因组学:蓝藻间相容溶质的合成
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-394313-2.00002-0
M. Hagemann
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引用次数: 40
Chapter Seven – The Lipid World Concept of Plant Lipidomics 第七章:植物脂质组学的脂质世界概念
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-397922-3.00007-1
Laetitia Fouillen, B. Colsch, R. Lessire
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引用次数: 7
Chapter Thirteen - Modelling Metabolic Networks—The Theories of Metabolism 第十三章-代谢网络建模-代谢理论
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-397922-3.00013-7
J. Mazat, B. Beauvoit
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引用次数: 1
Evolutionary Divergence of Marine Aerobic Anoxygenic Phototrophic Bacteria as Seen from Diverse Organisations of Their Photosynthesis Gene Clusters 从光合作用基因簇的不同组织看海洋好氧无氧光养细菌的进化分化
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-397923-0.00012-6
Qiang Zheng, M. Koblížek, J. Beatty, N. Jiao
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引用次数: 12
Improved Production of Plant Isoquinoline Alkaloids by Metabolic Engineering 利用代谢工程改进植物异喹啉生物碱生产
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-408061-4.00006-7
F. Sato
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引用次数: 7
Increasing the pace of new discoveries in Tropane alkaloid biosynthesis 加快Tropane生物碱生物合成新发现的步伐
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-408061-4.00002-X
J. Jirschitzka, Franziska Dolke, J. D’Auria
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引用次数: 15
Deciphering the Evolution, Cell Biology and Regulation of Monoterpene Indole Alkaloids 单萜吲哚类生物碱的进化、细胞生物学和调控
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-408061-4.00003-1
B. St-Pierre, S. Besseau, M. Clastre, V. Courdavault, Martine Courtois, J. Crèche, E. Ducos, T. D. Bernonville, Christelle Dutilleul, G. Glevarec, N. Imbault, A. Lanoue, A. Oudin, N. Papon, O. Pichon, N. Giglioli-Guivarc’h
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引用次数: 25
Iron homeostasis in the Rhodobacter genus. 罗氏菌属的铁平衡。
4区 生物学 Q2 Agricultural and Biological Sciences
Advances in Botanical Research
Pub Date : 2013-01-01 DOI: 10.1016/B978-0-12-397923-0.00010-2
Sébastien Zappa, Carl E Bauer

Metals are utilized for a variety of critical cellular functions and are essential for survival. However cells are faced with the conundrum of needing metals coupled with e fact that some metals, iron in particular are toxic if present in excess. Maintaining metal homeostasis is therefore of critical importance to cells. In this review we have systematically analyzed sequenced genomes of three members of the Rhodobacter genus, R. capsulatus SB1003, R. sphaeroides 2.4.1 and R. ferroxidans SW2 to determine how these species undertake iron homeostasis. We focused our analysis on elemental ferrous and ferric iron uptake genes as well as genes involved in the utilization of iron from heme. We also discuss how Rhodobacter species manage iron toxicity through export and sequestration of iron. Finally we discuss the various putative strategies set up by these Rhodobacter species to regulate iron homeostasis and the potential novel means of regulation. Overall, this genomic analysis highlights surprisingly diverse features involved in iron homeostasis in the Rhodobacter genus.

金属可用于各种关键的细胞功能,是细胞生存所必需的。然而,细胞在需要金属的同时,也面临着一些金属(尤其是铁)过量存在时会产生毒性的难题。因此,维持金属平衡对细胞至关重要。在这篇综述中,我们系统分析了罗氏杆菌属三个成员(R. capsulatus SB1003、R. sphaeroides 2.4.1 和 R. ferroxidans SW2)的基因组测序,以确定这些物种是如何实现铁平衡的。我们重点分析了铁元素和铁吸收基因以及参与利用血红素中铁的基因。我们还讨论了罗氏菌如何通过输出和螯合铁来控制铁的毒性。最后,我们还讨论了这些根瘤杆菌为调节铁稳态而设置的各种假定策略以及潜在的新型调节手段。总之,这项基因组分析突显了罗氏菌属在铁稳态方面令人惊讶的多样性特征。
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引用次数: 0
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