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Holo Structure and Steady State Kinetics of the Thiazolinyl Imine Reductases for Siderophore Biosynthesis

机译：噻唑啉基亚胺还原酶的铁结构和稳态动力学用于铁载体的生物合成

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Thiazolinyl imine reductases catalyze the NADPH-dependent reduction of a thiazoline to a thiazolidine, a required step in the formation of the siderophores yersiniabactin (Yersinia spp.) and pyochelin (Pseudomonas aeruginosa). These stand-alone nonribosomal peptide tailoring domains are structural homologues of sugar oxidoreductases. Two closed structures of the thiazolinyl imine reductase from Yersinia enterocolitica (Irp3) are presented here: an NADP⁺-bound structure to 1.45 Å resolution and a holo structure to 1.28 Å resolution with NADP⁺ and a substrate analogue bound. Michaelis—Menten kinetics were measured using the same substrate analogue and the homologue from P. aeruginosa, PchG. The data presented here support the hypothesis that tyrosine 128 is the likely general acid residue for catalysis and also highlight the phosphopantetheine tunnel for tethering of the substrate to the nonribosomal peptide synthetase module during assembly line biosynthesis of the siderophore.

机译：噻唑啉亚胺还原酶可催化NADPH依赖性的噻唑啉还原为噻唑烷，这是铁载体耶尔森菌素（Yersinia spp。）和Pyochelin（Pseudomonas aeruginosa）形成的必需步骤。这些独立的非核糖体肽修饰域是糖氧化还原酶的结构同源物。此处显示了来自小肠结肠炎耶尔森氏菌（Irp3）的噻唑啉亚胺还原酶的两个封闭结构：NADP ^{+ 结合结构达到1.45Å分辨率，全息结构达到1.28Å分辨率，具有NADP ^{+ < / sup>与底物类似物结合。使用相同的底物类似物和铜绿假单胞菌（PchG）的同系物，测量米氏（Michaelis）-门腾动力学。此处提供的数据支持以下假设：酪氨酸128是可能的一般催化酸残基，并且还突出了在泛铁的组装线生物合成过程中用于将底物束缚至非核糖体肽合成酶模块的磷酸泛酸通道。}}

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期刊名称 other
作者
Kathleen M. Meneely; Trey A. Ronnebaum; Andrew P. Riley; Thomas E. Prisinzano; Audrey L. Lamb;
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年(卷),期 -1(55),38
年度 -1
页码 5423–5433
总页数 25
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1. Holo Structure and Steady State Kinetics of the Thiazolinyl Imine Reductases for Siderophore Biosynthesis [J] . Meneely Kathleen M., Ronnebaum Trey A., Riley Andrew P., Biochemistry . 2016,第38期

机译：噻唑啉亚胺还原酶的铁结构和稳态动力学用于铁载体的生物合成
2. Two structures of a thiazolinyl imine reductase from yersinia enterocolitica provide insight into catalysis and binding to the nonribosomal peptide synthetase module of HMWP1 [J] . Meneely K.M., Lamb A.L. Biochemistry . 2012,第44期

机译：小肠结肠炎耶尔森氏菌的噻唑啉基亚胺还原酶的两个结构提供了对HMWP1催化和与非核糖体肽合成酶模块结合的洞察力
3. Multiple Forms of Xylose Reductase in Candida intermedia: Comparison of Their Functional Properties Using Quantitative Structure-Activity Relationships, Steady-State Kinetic Analysis, and pH Studies. [J] . Nidetzky B, Bruggler K, Kratzer R, Journal of Agricultural and Food Chemistry . 2003,第27期

机译：中间念珠菌中木糖还原酶的多种形式：使用定量结构-活性关系，稳态动力学分析和pH研究比较其功能特性。
4. GENERATION OF NEW IMINE REDUCING ENZYMES - EXPANSION OF THE IMINE REDUCTASE SEQUENCE SPACE [C] . Maike Lenz, Silvia Fademrecht, Jurgen Pleiss, Enzyme Engineering Conference . 2018

机译：新亚胺减少酶的产生 - 亚胺还原酶序列空间的扩增
5. Iron-sulfur cluster biosynthesis: Iron-sulfur cluster transfer from holo ISU and ISA to apo ferredoxin. [D] . Wu, Shu-Pao. 2004

机译：铁硫团簇的生物合成：铁硫团簇从整体ISU和ISA转移到载脂铁氧还蛋白上。
6. Two Structures of a Thiazolinyl Imine Reductase from Yersinia enterocolitica (Irp3) Provide Insight for Catalysis and Binding to the Nonribosomal Peptide Synthetase Module of HMWP1 [O] . Kathleen M. Meneely, Audrey L. Lamb -1

机译：从小肠结肠炎耶尔森菌（Irp3）一个噻唑啉亚胺还原酶的两种结构提供深入了解对于催化和结合到HmWp1的非核糖体肽合成酶模块
7. Two Structures of a Thiazolinyl Imine Reductase fromYersinia enterocoliticaProvide Insight into Catalysis and Binding to the Nonribosomal Peptide Synthetase Module of HMWP1 [O] . Kathleen M. Meneely, Audrey L. Lamb 2012

机译：噻唑啉基亚胺还原酶的两种结构从yersinia肠核己酰胺洞察HMWP1的非纤维素肽合成酶模块的催化作用和结合

Holo Structure and Steady State Kinetics of the Thiazolinyl Imine Reductases for Siderophore Biosynthesis

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