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氧氟沙星甲基化物的核磁共振波谱研究
引用本文:高秀香,齐剑,赵梅仙,涂光中,安东各,徐怡庄,吴瑾光. 氧氟沙星甲基化物的核磁共振波谱研究[J]. 光谱学与光谱分析, 2008, 28(6): 1420-1425. DOI: 10.3964/j.issn.1000-0593.2008.06.054
作者姓名:高秀香  齐剑  赵梅仙  涂光中  安东各  徐怡庄  吴瑾光
作者单位:北京大学化学与分子工程学院稀土材料化学及应用国家重点实验室,北京,100871;北京化工大学理学院应用化学系,北京,100029;北京微量化学研究所,北京,100091
摘    要:结合1H NMR,13C NMR,DEPT,HSQC,HMBC谱和碳氟偶合裂分行为, 对氧氟沙星(ofloxacin, OFL)哌嗪部分的甲基化产物-甲基氧氟沙星(methyl-ofloxacin,Me-OFL)的结构进行归属,并探讨了Me-OFL在酸性及碱性溶液中的1H和13C谱的变化。碱性溶液中, 5H的化学位移较酸性向高场移动1.02, 推测此变化与形成C—H…O弱氢键有关。6C、13C、羰基碳7C和羧基碳15C分别向低场位移12.04,7.46,4.33,2.88 ppm, 推测此变化与羧基和羧酸根的转变有关。另外, 还比较了OFL哌嗪环4’N上质子化产物与烷基化产物的正电荷分布。当哌嗪环质子化形成季铵盐时,正电荷分布在氢原子上;当其烷基化形成季铵盐时, 正电荷分布在氮原子上。

关 键 词:喹诺酮  甲基氧氟沙星  核磁共振  哌嗪环
收稿时间:2007-02-06

A Study on the NMR Spectrum of Methyl-Ofloxacin
GAO Xiu-xiang,QI Jian,ZHAO Mei-xian,TU Guang-zhong,AN Dong-ge,XU Yi-zhuang,WU Jin-guang. A Study on the NMR Spectrum of Methyl-Ofloxacin[J]. Spectroscopy and Spectral Analysis, 2008, 28(6): 1420-1425. DOI: 10.3964/j.issn.1000-0593.2008.06.054
Authors:GAO Xiu-xiang  QI Jian  ZHAO Mei-xian  TU Guang-zhong  AN Dong-ge  XU Yi-zhuang  WU Jin-guang
Affiliation:1. National Laboratory of Rare Earth Material Chemistry and Application, College of Chemical and Molecular Engineering, Peking University, Beijing 100871, China2. Applied Chemistry Department, School of Science, Beijing University of Chemical Technology, Beijing 100029, China3. Beijing Institute of Microchemistry, Beijing 100091, China
Abstract:Ofloxacin ((+/-)-9-fluoro-3-methyl-10-(4-methylpiperazin-1-yl)-7-oxo-2, 3-dihydro-7H-pyrido[1,2,3-de]-1, 4-benzoxazine-6-carboxylic acid) is a totally synthetic fluoroquinolone antimicrobial agent with a broad spectrum of activity against Gram-positive and Gram-negative bacteria and atypical pathogens such as Mycoplasma, Chlamydia and Legionella. Even though it is widely used for the treatment of gastrointestinal, pulmonary, urinary, and other infections, the comprehensive mechanism of action at molecular level has not been known so far. It is very important to understand the structural characteristics of the drug and the effects that are caused by the environments. With the purpose of deeply investigating the structure of Ofloxacin, an analog of Ofloxacin, Methyl-Ofloxacin (Me-OFL), was synthesized by methylation of 4'N in piperazine ring from Ofloxacin with CH3I. Then appropriate Me-OFL was dissolved in DC1/D2O and NaOH/D2O to prepare corresponding acidic and alkaline solutions. Systematic NMR spectroscopic investigation on Me-OFL in both acidic and alkaline solution was conducted using quantitative 1H and 13C spectra, DEPT, HSQC together with HMBC techniques. The spectra were recorded with Bruker AM-300 spectrometer and DRX500 spectrometer. Chemical shifts have been given in values referred to dioxane (deltaJ = 3.7, deltac = 67.8). Complete assignments on 1H and 13C signals of Me-OFL were obtained in different pH environments where the coupling constant between 13 C and 19F was found to be very helpful for the assignment of aromatic 13C signals. A comprehensive comparison between the 1H, 13C chemical shifts, together with the structural transformation in acidic and alkaline solutions was made and discussed in details. Due to the formation of hydrogen bond between COOH and C==O, the COOH and aromatic ring are in the same plane. As a result, a weak O...H--C hydrogen bond forms between C==O from the carboxyl group and 5-H from aromatic ring. In alkaline solution, the deprivation of H+ from COOH destroys not only the hydrogen bond between COOH and carbonyl group but also the weak hydrogen between the C==O from COOH and 5H. As a result, the 5H exhibited remarkable shift toward high field (1.02). Meanwhile, the chemical shift of 6C, 13C, 7C, 15C also exhibited remarkable shift to low field at 12. 04, 7.46, 4.33, 2.88 respectively. Such variations were related to the changes of p electrons from carboxyl group caused by the transformation between the carboxyl group and the carboxylate group in different pH environments. Comparison of deltaH, deltac data between Me-OFL and OFL in acidic solution and OFL in alkaline was made. In Me-OFL acidic solution, the chemical shift of 3'C, 5'C, 7'C, 8'C also exhibited remarkable shift to low field at 6.66-7.32 respectively, the chemical shift of 2'C and 6'C also exhibited remarkable shift to high field 6.04. In OFL acidic solution, the chemical shift of 2'C, 3'C, 5'C, 6'C, 7'C, 8'C also exhibited remarkable shift to high field within 2.39, Comparison between the protonation and the methylation on the 4'N atom from the piperazine ring was also made. The distribution of positive charge also showed difference. When protonation occurred on the piperazine ring, the positive charge was on the proton connected with 4'N. However, if methylation occurred, the positive charge is on the 4'-N atom.
Keywords:Quinolone  Methyl-Ofloxacin  NMR  Piperazine ring
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