National Pesticide Engineering Research Center,Nankai University,Tianjin3000 71)abstract:Chiral recognition is an attractive subject in the area of host-guest chemis try.Conformation study is per-formed to understand ...National Pesticide Engineering Research Center,Nankai University,Tianjin3000 71)abstract:Chiral recognition is an attractive subject in the area of host-guest chemis try.Conformation study is per-formed to understand chiral recognition of zinc porphyrin with imidazole derivatives on a molecular level.The molecular reco gnition of three novel chiral zinc porphyrin(1-3)abstract:with four types of imidazole d erivatives was stud-ied.The conformation searching of this host-guest system w as studied by using simulated annealing method on the basis of Tripos force fiel d.The different minimal energy conformation of imidazole combind with porphyrin was studied.The quantum chemistry calculation was performed to calculate the sin gle-point energies of the host-guest system.The minimal energy conformation of ZnT(o-BocAla)abstract:APP(3)abstract:-Im showed that Im attaching from the single-side chain o f the host had the reasonable configuration than that from the three-side chain .The former also had the lower energy than the latter.And the quantum chemistry calculation results of orbital energy,Δ E L-H ,and atomic net charge revealed the same way.The results illumate that combi nation oriention of the host-guest system is the single chain of the hosts.展开更多
在一种仿G蛋白耦合型信号转导的人工超分子系统中引入类似光化学开关的偶氮苯化合物,用来模拟跨膜受体。合成了三种人工受体的中间体4,4′-二氨基酸酯偶氮苯:Azo-PheOMe(6a)、Azo-ValOMe(6b)、Azo-GluOMe(6c)、Azo-SerOMe(6d)、Azo-ThrO...在一种仿G蛋白耦合型信号转导的人工超分子系统中引入类似光化学开关的偶氮苯化合物,用来模拟跨膜受体。合成了三种人工受体的中间体4,4′-二氨基酸酯偶氮苯:Azo-PheOMe(6a)、Azo-ValOMe(6b)、Azo-GluOMe(6c)、Azo-SerOMe(6d)、Azo-ThrOMe(6e)及Azo-PheOEt(6a′)、Azo-ValOEt(6b′)、Azo-GluOEt(6c′)、Azo-SerOEt(6d′)、Azo-ThrOEt(6e′)并采用1 H NMR谱、紫外可见光谱、元素分析以及红外光谱进行了表征。以6a为主要研究对象,分别在两种不同介质(三氯甲烷和甲醇)中,在365nm的紫外光下进行照射不同时间后,发现6a从反式变为顺式,再置于427nm的可见光下,又从顺式变回反式,所需时间不同,并且其最大吸收波长发生了红移,为模拟信号转导体系中受体之构象的变化作初步研究。展开更多
文摘National Pesticide Engineering Research Center,Nankai University,Tianjin3000 71)abstract:Chiral recognition is an attractive subject in the area of host-guest chemis try.Conformation study is per-formed to understand chiral recognition of zinc porphyrin with imidazole derivatives on a molecular level.The molecular reco gnition of three novel chiral zinc porphyrin(1-3)abstract:with four types of imidazole d erivatives was stud-ied.The conformation searching of this host-guest system w as studied by using simulated annealing method on the basis of Tripos force fiel d.The different minimal energy conformation of imidazole combind with porphyrin was studied.The quantum chemistry calculation was performed to calculate the sin gle-point energies of the host-guest system.The minimal energy conformation of ZnT(o-BocAla)abstract:APP(3)abstract:-Im showed that Im attaching from the single-side chain o f the host had the reasonable configuration than that from the three-side chain .The former also had the lower energy than the latter.And the quantum chemistry calculation results of orbital energy,Δ E L-H ,and atomic net charge revealed the same way.The results illumate that combi nation oriention of the host-guest system is the single chain of the hosts.
文摘在一种仿G蛋白耦合型信号转导的人工超分子系统中引入类似光化学开关的偶氮苯化合物,用来模拟跨膜受体。合成了三种人工受体的中间体4,4′-二氨基酸酯偶氮苯:Azo-PheOMe(6a)、Azo-ValOMe(6b)、Azo-GluOMe(6c)、Azo-SerOMe(6d)、Azo-ThrOMe(6e)及Azo-PheOEt(6a′)、Azo-ValOEt(6b′)、Azo-GluOEt(6c′)、Azo-SerOEt(6d′)、Azo-ThrOEt(6e′)并采用1 H NMR谱、紫外可见光谱、元素分析以及红外光谱进行了表征。以6a为主要研究对象,分别在两种不同介质(三氯甲烷和甲醇)中,在365nm的紫外光下进行照射不同时间后,发现6a从反式变为顺式,再置于427nm的可见光下,又从顺式变回反式,所需时间不同,并且其最大吸收波长发生了红移,为模拟信号转导体系中受体之构象的变化作初步研究。