糖的原子电距矢量表达及其核磁共振碳谱模拟

波谱学杂志 ›› 2000, Vol. 17 ›› Issue (1): 55-61.

糖的原子电距矢量表达及其核磁共振碳谱模拟

李志良¹, 周丽平¹, 夏之宁¹, 彭海蛟¹, 刘树深², 余般梅³

1 重庆大学环境与化学化工学院, 重庆 400044;
2 重庆大学生物工程学院, 重庆 400044;
3 国防科学技术大学应用物理系, 长沙 410073

收稿日期:1999-11-15 修回日期:1999-12-17 出版日期:2000-02-05 发布日期:2018-01-10
作者简介:李志良,男,1962年出生,博士,教授
基金资助:
国家教委霍英东基金;国家“春晖计划”教育部启动基金;机械部“优秀人才”专项基金资助项目

ON AED-VECTOR CHARACTERIZATION AND ¹³C NMR SIMULATION FOR SUGARS

LI Zhiliang¹, ZHOU Liping¹, XIA Zhining¹, PENG Haijiao¹, LIU Shushen², YU Banmei³

1 College of Environment and Chemistry and Chemical Engineering, Chongqing University, Chongqing, 400044;
2 College of Biological Engineering, Chongqing University, Chongqing, 400044;
3 Department of Applied Physics, Changsha Institute of Technology, Changsha 410073

Received:1999-11-15 Revised:1999-12-17 Online:2000-02-05 Published:2018-01-10

摘要/Abstract

摘要： 提出以原子电性距离矢量(VAED),描述上百种糖分子中数百个不同等价碳原子的化学环境;并结合γ效应校正,建立核磁共振碳谱(¹³C NMR)化学位移(CS)的五参数线性模型.用于糖分子中四类不同的等价碳原子化学位移的估计,复相关系数R和均方根误差RMS及标准偏差SD和F-统计量F分别为:伯碳n=62,R=0.991 0,RMS=1.960 2(SD=1.9762,F=5 0 2.32 94,EV=0.980 5);仲碳n=79,R=0.9886,RMS=2.5 40 5(SD=2.5 5 67,F=5 1 5.60 4 6,EV=0.975 7);叔碳n=30 2,R=0.95 1 4,RMS=3.6884(SD=3.694 5,F=4 68.82 76,EV=0.90 35)及季碳n=1 4,R=0.5 772,RMS=8.862 6(SD=9.1 972,F=0.5 82 8,EV=-0.0 837).经交互校验,伯仲叔碳的化学位移模型稳定性较好.并综合几种处理方法,找到一种较好的建模方法,将它用于几个外部样本的定量预测,结果良好.

关键词: 原子电性距离矢量(VAED), ¹³C NMR波谱模拟, γ效应校正, 糖, 碳水化合物

Abstract: In bioorganic analysis, abundant structural information can be provided by carbon-13 nuclear magnetic resonance (¹³C NMR) and more and more attentions have recently been paid on its molecular modelling and quantitative prediction which on the basis of the relationship of chemical shift of carbon nuclear magnetic resonance with descriptor variables of chemical structure. By using multiple linear regression (MLR) and latent factor analysis (LFA) techniques, quantitative ¹³C NMR models are achieved to accurately express correlation of ¹³C NMR chemical shifts with five structural parameters and to successfully predict the chemical shift (CS)of any other compounds optimally. First, the history and progress in quantitative structure spectra relationship (QSSR) were critically reviewed, and a set of novel descriptors consisting of 4 elements, called atomic electronegative distance edge vector (AEDV) were first developed by our laboratory and further investigated for the bioactive compounds. Next, MLR and LFA were simply introduced; Matlab and True Basic programs for quantitative molecular modelling (QMM) were designed and written by ourselves. Then, various chemical shifts of ¹³C NMR for 457 different chemically equivalent carbon atoms in 135 natural sugars were estimated and/or predicted with the atomic electronegative distance edge vector (AEDV) with 4 elements and the γ calibration parameter:The correlation coefficients R, roots of mean square error RMS, standard deviation SD, F-statistic value F, and explained variance being n=62, R=0.9910, RMS=1.9602 (SD=1.9762, R²=0.9821, F=502.3294, EV=0.9805); n=79, R=0.9886, RMS=2.5405 (SD=2.5567, R²=0.9773, F=515.6046, EV=0.9757); n=302, R=0.9514, RMS=3.6884 (SD=3.6945, R²=0.9051, F=468.8276, EV=0.9035)and n=14, R=0.5772, RMS=8.8626(SD=9.1972, R²=0.3331, F=0.5828, EV=-0.0837)for the primary, secondary, tertiary and quaternary carbons in all carbohydrates, respectively. Finally, cross validation with leave-one-out (LOO) procedure was made on the QSSR equations for all four types of carbon atoms. The good results were obtained for the first three types of carbon atoms except the quaternary carbon atoms, which indicated that there exists a simply multiple linear relationship between CS and AEDV for primary, secondary, tertiary carbon atoms of sugars.

Key words: Nuclear magnetic resonance, Multiple linear regression, Latent factor analysis, Atomic electronegative distance-edge vector (AEDV), γ calibration, Chemical shift, Quantitative structure-spectra relationship, Sugars, Carbohydrates

李志良, 周丽平, 夏之宁, 彭海蛟, 刘树深, 余般梅. 糖的原子电距矢量表达及其核磁共振碳谱模拟[J]. 波谱学杂志, 2000, 17(1): 55-61.

LI Zhiliang, ZHOU Liping, XIA Zhining, PENG Haijiao, LIU Shushen, YU Banmei. ON AED-VECTOR CHARACTERIZATION AND ¹³C NMR SIMULATION FOR SUGARS[J]. Chinese Journal of Magnetic Resonance, 2000, 17(1): 55-61.

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