Cation-pi Interactions Contribute to Substrate Recognition in gamma-Butyrobetaine Hydroxylase Catalysis

Kamps Jos J. A. G.; Khan Amjad; Choi Hwanho; Lesniak Robert K.; Brem Juergen; Rydzik Anna M.; McDonough Michael A.; Schofield Christopher J.; Claridge Timothy D. W.; Mecinovic Jasmin

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Cation-pi Interactions Contribute to Substrate Recognition in gamma-Butyrobetaine Hydroxylase Catalysis

机译：阳离子-pi相互作用有助于γ-丁甜菜碱羟化酶催化中的底物识别。

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gamma-Butyrobetaine hydroxylase (BBOX) is a nonheme Fe-II- and 2-oxoglutarate-dependent oxygenase that catalyzes the stereoselective hydroxylation of an unactivated C-H bond of gamma-butyrobetaine (gamma BB) in the final step of carnitine biosynthesis. BBOX contains an aromatic cage for the recognition of the positively charged trimethylammonium group of the gamma BB substrate. Enzyme binding and kinetic analyses on substrate analogues with P and As substituting for N in the trimethylammonium group show that the analogues are good BBOX substrates, which follow the efficiency trend N+ > P+ > As+. The results reveal that an un-charged carbon analogue of gamma BB is not a BBOX substrate, thus highlighting the importance of the energetically favorable cation-pi interactions in productive substrate recognition.

机译：γ-丁甜菜碱羟化酶（BBOX）是一种非血红素依赖于Fe-II和2-氧戊二酸的加氧酶，可在肉碱生物合成的最后一步催化γ-丁甜菜碱（γBB）的未激活C-H键的立体选择性羟基化。 BBOX包含一个芳香族笼子，用于识别BB底物的带正电的三甲基铵基团。在三甲基铵基团中用P和As替代N的底物类似物的酶结合和动力学分析表明，该类似物是良好的BBOX底物，其遵循效率趋势N +> P +> As +。结果表明，γBB的不带电荷的碳类似物不是BBOX底物，因此突出了在生产性底物识别中能量上有利的阳离子-pi相互作用的重要性。

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来源
《Chemistry: A European journal 》 |2016年第4期| 共7页
作者
Kamps Jos J. A. G.; Khan Amjad; Choi Hwanho; Lesniak Robert K.; Brem Juergen; Rydzik Anna M.; McDonough Michael A.; Schofield Christopher J.; Claridge Timothy D. W.; Mecinovic Jasmin;
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正文语种 eng
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cation-pi interactions; C-H oxidation; enzyme catalysis; molecular recognition; oxygenases;

机译：阳离子-π相互作用;C-H氧化;酶催化;分子识别;加氧酶;

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1. Cation-pi Interactions Contribute to Substrate Recognition in gamma-Butyrobetaine Hydroxylase Catalysis [J] . Kamps Jos J. A. G., Khan Amjad, Choi Hwanho, Chemistry: A European journal . 2016 ,第4期

机译：阳离子-pi相互作用有助于γ-丁甜菜碱羟化酶催化中的底物识别。
2. Cation-pi interactions in ligand recognition and catalysis. [J] . Zacharias N, Dougherty DA Trends in pharmacological sciences . 2002 ,第6期

机译：阳离子-π相互作用的配体识别和催化。
3. Structural Basis for Phosphoinositide Substrate Recognition, Catalysis, and Membrane Interactions in Human Inositol Polyphosphate 5-Phosphatases [J] . Lionel Trésaugues, Camilla Silvander, Susanne Flodin, Structure . 2014 ,第5期

机译：人肌醇多磷酸5-磷酸酶中磷酸肌醇底物的识别，催化和膜相互作用的结构基础。
4. The role of tryptophan cation-pi interactions onammonia transport through the AmtBammonia channel [C] . William E.C. Harries, Shahram Khademi, Robert M. Strou International Study Group for Tryptophan Research . 2007

机译：色氨酸阳离子-PI相互作用onammonia通过Amtbammonia渠道的作用
5. Elucidation of the Cation-pi Interaction in Small-Molecule Asymmetric Catalysis. [D] . Lin, Song. 2013

机译：在小分子不对称催化中阳离子-π相互作用的阐明。
6. Cation–π Interactions Contribute to Substrate Recognition in γ‐Butyrobetaine Hydroxylase Catalysis [O] . Jos J. A. G. Kamps, Amjad Khan, Dr. Hwanho Choi, -1

机译：阳离子-π相互作用有助于γ-丁甜菜碱羟化酶催化中的底物识别。
7. Structural Basis for Phosphoinositide Substrate Recognition, Catalysis, and Membrane Interactions in Human Inositol Polyphosphate 5-Phosphatases [O] . Trésaugues Lionel, Silvander Camilla, Flodin Susanne, 2014

机译：人肌醇多磷酸5-磷酸酶中磷酸肌醇底物识别，催化和膜相互作用的结构基础。
8. Biomimetic Catalysis of SN2 Reactions through Cation-Pi Interactions. The Role ofPolarizability in Catalysis [R] . McCurdy, A., Jimenez, L., Stauffer, D. A., 1992

机译：通过阳离子-pi相互作用的sN2反应的仿生催化。可挥发性在催化中的作用

Cation-pi Interactions Contribute to Substrate Recognition in gamma-Butyrobetaine Hydroxylase Catalysis

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