Coordination of divalent metal cation to amide group to form adduct ion in FAB mass spectrometry: Implication of Zn2+ in enzymatic hydrolysis of amide bond

Kobayashi H; Morisaki N; Miyachi H; Hashimoto Y

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Coordination of divalent metal cation to amide group to form adduct ion in FAB mass spectrometry: Implication of Zn2+ in enzymatic hydrolysis of amide bond

机译：FAB质谱中二价金属阳离子与酰胺基的配位形成加成离子：Zn2 +在酰胺键酶促水解中的意义

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The structures of complexes between amides and metal ions were examined by FAB mass spectrometry and collision-induced dissociation (CID). Zn2+ was coordinated by the amide carbonyl oxygen atom of N-tetradecylacetamide (1). In contrast, Ca2+ and Mg2+ were coordinated by the amide group of I in both the keto and enol forms. The catalytic role of Zn2+ at the active site of the hydrolases might partly be explained by the effective attack of Zn2+ on carbonyl oxygen atom of the scissile amide group.

机译：酰胺和金属离子之间的配合物的结构通过FAB质谱和碰撞诱导解离（CID）进行了检查。 Zn2 +由N-十四烷基乙酰胺（1）的酰胺羰基氧原子配位。相反，在酮和烯醇形式中，Ca 2+和Mg 2+均由I的酰胺基团配位。 Zn2 +在水解酶活性位点上的催化作用可能部分是由于Zn2 +对可裂解酰胺基的羰基氧原子的有效攻击所致。

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《Chemical and Pharmaceutical Bulletin》 |2008年第5期|共5页
作者
Kobayashi H; Morisaki N; Miyachi H; Hashimoto Y;
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正文语种 eng
中图分类药学;
关键词
zinc ion (Zn2+); amide group; adduct ion; FAB mass spectrometry; hydrolase; HISTONE DEACETYLASE; GAS-PHASE; INHIBITORS; PEPTIDES; COMPLEXES; ALKALI; DESIGN; THERMOLYSIN; DERIVATIVES; CATALYSIS;

机译：锌离子（Zn2 +）;酰胺基;加成离子;FAB质谱;水解酶;组氨酸癸酸酯;气相;抑制剂;肽;络合物;碱;设计;热溶素;衍生物;催化;

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1. Coordination of divalent metal cation to amide group to form adduct ion in FAB mass spectrometry: Implication of Zn2+ in enzymatic hydrolysis of amide bond [J] . Kobayashi H, Morisaki N, Miyachi H, Chemical and Pharmaceutical Bulletin . 2008,第5期

机译：FAB质谱中二价金属阳离子与酰胺基的配位形成加成离子：Zn2 +在酰胺键酶促水解中的意义
2. Coordination of sodium cation to an oxygen function and olefinic double bond to form molecular adduct ion in fast atom bombardment mass spectrometry. [J] . Morisaki N, Kobayashi H, Yamamura Y, Chemical and Pharmaceutical Bulletin . 2002,第7期

机译：快速原子轰击质谱法中钠阳离子与氧官能团和烯烃双键的配位形成分子加成离子。
3. COORDINATION OF ALKALI METAL CATION TO OXYGEN FUNCTIONS TO FORM ADDUCT ION IN FAST ATOM BOMBARDMENT MASS SPECTROMETRY [J] . Morisaki N., Kobayashi H., Shirai R., Tetrahedron . 1996,第27期

机译：快速原子轰击质谱法中碱金属阳离子与氧官能团的结合形成离子
4. Amide Hydrogen/Deuterium Exchange by Top - Down El ectron Capture Dissociation - Fourier Transform Ion Cyclotron Mass Spectrometry [C] . Teerapat Rojsajjakul, Thomas P. Neis, Fred L. King American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2012

机译：酰胺氢气/氘交换通过顶下EL Ectron捕获解离 - 傅里叶变换离子回旋料质谱
5. Neutralization-reionization mass spectrometry and computational studies of hydrogen atom adducts to the amide bond. [D] . Syrstad, Erik Alan. 2004

机译：中和-电离质谱和氢原子加成至酰胺键的计算研究。
6. Amide–Amide and Amide–Water Hydrogen Bonds: Implications for Protein Folding and Stability [O] . Eric S. Eberhardt, Ronald T. Raines -1

机译：酰胺-酰胺和酰胺-水氢键：对蛋白质折叠和稳定性的影响
7. Coordination of Divalent Metal Cation to Amide Group to Form Adduct Ion in FAB Mass Spectrometry: Implication of Zn2+ in Enzymatic Hydrolysis of Amide Bond [O] . Hisayoshi Kobayashi, Naoko Morisaki, Hiroyuki Miyachi, 2008

机译：将二价金属阳离子与酰胺基团形成加合物的配位：Zn2 +在酰胺键酶水解中的含义
8. Application of Trianionic Pincer Ligands to Reactions Involving Group VI Alkylidynes, Metal-Metal Multiple Bonds, and Group IV Amides; Master's thesis [R] . Peloquin, A. J. 2008

机译：Trianionic pincer配体在涉及VI族烷基二炔，金属 - 金属多键和IV族酰胺的反应中的应用;硕士论文

Coordination of divalent metal cation to amide group to form adduct ion in FAB mass spectrometry: Implication of Zn2+ in enzymatic hydrolysis of amide bond

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