Structural dynamics of a methionine γ-lyase for calicheamicin biosynthesis: Rotation of the conserved tyrosine stacking with pyridoxal phosphate

Hongnan Cao; Kemin Tan; Fengbin Wang; Lance Bigelow; Ragothaman M. Yennamalli; Robert Jedrzejczak; Gyorgy Babnigg; Craig A. Bingman; Andrzej Joachimiak; Madan K. Kharel; Shanteri Singh; Jon S. Thorson; George N. Phillips Jr.

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Structural dynamics of a methionine γ-lyase for calicheamicin biosynthesis: Rotation of the conserved tyrosine stacking with pyridoxal phosphate

机译：用于加里车霉素生物合成的蛋氨酸γ-裂解酶的结构动力学：磷酸吡pyr醛的保守酪氨酸堆积的旋转

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CalE6 from Micromonospora echinospora is a (pyridoxal 5′ phosphate) PLP-dependent methionine γ-lyase involved in the biosynthesis of calicheamicins. We report the crystal structure of a CalE6 2-(N-morpholino)ethanesulfonic acid complex showing ligand-induced rotation of Tyr100, which stacks with PLP, resembling the corresponding tyrosine rotation of true catalytic intermediates of CalE6 homologs. Elastic network modeling and crystallographic ensemble refinement reveal mobility of the N-terminal loop, which involves both tetrameric assembly and PLP binding. Modeling and comparative structural analysis of PLP-dependent enzymes involved in Cys/Met metabolism shine light on the functional implications of the intrinsic dynamic properties of CalE6 in catalysis and holoenzyme maturation.

机译：Micromonospora echinospora的CalE6是一种（吡rid醛5'磷酸）依赖PLP的蛋氨酸γ-裂合酶，参与加利车霉素的生物合成。我们报告的CalE6 2-（N-吗啉代）乙磺酸配合物的晶体结构显示配体诱导的Tyr100旋转，与PLP堆叠在一起，类似于CalE6同源物真正催化中间体的酪氨酸旋转。弹性网络建模和晶体学整体精细化揭示了N末端环的移动性，它涉及四聚体组装和PLP结合。参与Cys / Met代谢的PLP依赖性酶的建模和比较结构分析，揭示了CalE6内在动力学特性在催化和全酶成熟中的功能意义。

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《Structural Dynamics》 |2016年第3期|共页
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Hongnan Cao; Kemin Tan; Fengbin Wang; Lance Bigelow; Ragothaman M. Yennamalli; Robert Jedrzejczak; Gyorgy Babnigg; Craig A. Bingman; Andrzej Joachimiak; Madan K. Kharel; Shanteri Singh; Jon S. Thorson; George N. Phillips Jr.;
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1. Ionization state of pyridoxal 5 '-phosphate in D-serine dehydratase, dialkylglycine decarboxylase and tyrosine phenol-lyase and the influence of monovalent cations as inferred by P-31 NMR spectroscopy [J] . Schnackerz KD, Keller J, Phillips RS, Biochimica et biophysica acta: BBA: International journal of biochemistry, biophysics and molecular biololgy. Proteins and Proteomics . 2006,第2期

机译：D-丝氨酸脱水酶，二烷基甘氨酸脱羧酶和酪氨酸酚裂解酶中吡ido醛5'-磷酸的电离状态和P-31 NMR光谱推断单价阳离子的影响
2. The polypeptide chain fold in tyrosine phenol‐lyase, a pyridoxal‐5′‐phosphate‐dependent enzyme [J] . Antson Alfred A., Dauter Zbigniew, Demidkina Tatyana V., FEBS Letters . 1992,第3期

机译：酪氨酸酚裂解酶（吡ido醛-5'-磷酸依赖性酶）中的多肽链折叠
3. Immobilized derivative of pyridoxal 5′‐phosphate. Application to affinity chromatography of tryptophanase and tyrosine phenol‐lyase [J] . Fukui Saburo, Hara Hitoshi, Ikeda Sei-ichiro, FEBS Letters . 1975,第2期

机译：吡ido醛5'-磷酸的固定化衍生物。色氨酸酶和酪氨酸酚裂解酶在亲和色谱中的应用
4. Algorithms by Design: A Novel Normalized Time Weighted Residual Approach and Design of a Family of Energy- Momentum Conserving Algorithms for Nonlinear Structural Dynamics [C] . S. Masuri, A. Hoitink, X. Zhou, AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference . 2008

机译：设计中的算法：新颖的归一化时间加权残差方法和非线性结构动力学的一系列能量动量守恒算法的设计
5. Investigation of the determinants of reaction specificity in the pyridoxal 5'-phosphate dependent enzymes cystathionine beta-lyase and cystathionine gamma-lyase [D] . Farsi, Ali 2007

机译：吡ido醛5'-磷酸依赖性酶胱硫醚β-裂合酶和胱硫醚γ-裂合酶中反应特异性决定因素的研究
6. Structural dynamics of a methionine γ-lyase for calicheamicin biosynthesis: Rotation of the conserved tyrosine stacking with pyridoxal phosphate [O] . Hongnan Cao, Kemin Tan, Fengbin Wang, 2016

机译：用于加利车霉素生物合成的蛋氨酸γ-裂解酶的结构动力学：磷酸吡pyr醛的保守酪氨酸堆积的旋转
7. Structural dynamics of a methionine γ-lyase for calicheamicin biosynthesis: Rotation of the conserved tyrosine stacking with pyridoxal phosphate [O] . Hongnan Cao, Kemin Tan, Fengbin Wang, 2016

机译：用于加利车霉素生物合成的蛋氨酸γ-裂解酶的结构动力学：用吡哆醛磷酸盐保守酪氨酸堆积的旋转

Structural dynamics of a methionine γ-lyase for calicheamicin biosynthesis: Rotation of the conserved tyrosine stacking with pyridoxal phosphate

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