计算机与应用化学
計算機與應用化學
계산궤여응용화학
COMPUTERS AND APPLIED CHEMISTRY
2010年
2期
215-220
,共6页
任宏江%刘艳%杨晓慧%晏志军%王渭娜
任宏江%劉豔%楊曉慧%晏誌軍%王渭娜
임굉강%류염%양효혜%안지군%왕위나
6-巯基嘌呤%质子转移%互变异构%活化能%氢键
6-巰基嘌呤%質子轉移%互變異構%活化能%氫鍵
6-구기표령%질자전이%호변이구%활화능%경건
6-thiopurine%proton transfer%tautomerism%activation energy barrier%hydrogen bond
采用密度泛函B3LYP方法,在6-311G(d,p)基组水平上对6-巯基嘌呤质子转移引起的硫酮式与硫醇式互变异构反应机理进行了计算研究,获得了互变异构过程的反应焓、活化能、活化吉布斯自由能和质子转移反应的速率常数等参数.计算结果表明,6-巯基嘌呤无论是孤立分子还是一水合物,其硫酮式TP2是最稳定的异构体.计算结果同已有实验结果相符.由硫酮式通过分子内质子转移向硫醇式异构化找到4条反应通道(P1,P2,P3,P4),各通道的活化能分别为114.0,133.9,128.0,95.1 kJ·mol~(-1).当水分子参与反应以双质子转移机理异构化时,活化能垒显著降低,各通道的活化能依次降为51.2,63.0,70.5,42.8 kJ·mol~(-1),可见,水助催化有利于硫酮式向硫醇式转变.计算结果还表明,氢键的强弱对TP2一水合物的稳定性会有一定的影响.
採用密度汎函B3LYP方法,在6-311G(d,p)基組水平上對6-巰基嘌呤質子轉移引起的硫酮式與硫醇式互變異構反應機理進行瞭計算研究,穫得瞭互變異構過程的反應焓、活化能、活化吉佈斯自由能和質子轉移反應的速率常數等參數.計算結果錶明,6-巰基嘌呤無論是孤立分子還是一水閤物,其硫酮式TP2是最穩定的異構體.計算結果同已有實驗結果相符.由硫酮式通過分子內質子轉移嚮硫醇式異構化找到4條反應通道(P1,P2,P3,P4),各通道的活化能分彆為114.0,133.9,128.0,95.1 kJ·mol~(-1).噹水分子參與反應以雙質子轉移機理異構化時,活化能壘顯著降低,各通道的活化能依次降為51.2,63.0,70.5,42.8 kJ·mol~(-1),可見,水助催化有利于硫酮式嚮硫醇式轉變.計算結果還錶明,氫鍵的彊弱對TP2一水閤物的穩定性會有一定的影響.
채용밀도범함B3LYP방법,재6-311G(d,p)기조수평상대6-구기표령질자전이인기적류동식여류순식호변이구반응궤리진행료계산연구,획득료호변이구과정적반응함、활화능、활화길포사자유능화질자전이반응적속솔상수등삼수.계산결과표명,6-구기표령무론시고립분자환시일수합물,기류동식TP2시최은정적이구체.계산결과동이유실험결과상부.유류동식통과분자내질자전이향류순식이구화조도4조반응통도(P1,P2,P3,P4),각통도적활화능분별위114.0,133.9,128.0,95.1 kJ·mol~(-1).당수분자삼여반응이쌍질자전이궤리이구화시,활화능루현저강저,각통도적활화능의차강위51.2,63.0,70.5,42.8 kJ·mol~(-1),가견,수조최화유리우류동식향류순식전변.계산결과환표명,경건적강약대TP2일수합물적은정성회유일정적영향.
The reaction mechanism of thione-thiol tautomerism for 6-thiopurine obtained from proton transfer has been investigated by DFT B3LYP method with 6-311G(d,P)basis set.The reaction enthalpies,activation energies,activation free energies and the rate constants of tautomerism were obtained.The results showed that the thione TP2 is the most stable tautomer of all the tautomers in the form of isolated or hydrated isomers.The 4 reaction pathways(P1,P2,P3,P4)from thione to thiol through intramolecular proton proton transfers mechanism were found and the activation energies are 114.0,133.9,128.0,95.1 kJ·mol~(-1),respectively.In water catalysis,double proton transfers mechanism were found and the activation energies were dramatically decreased to 51.2,63.0,70.5,42.8 kJ·mol~(-1),which was preferable to transform from thione to thiol tautomers. It was also found that the strength of hydrogen bonds has some impact on the stabilities of the TP2 monohydrated complexes.
