Reaction products of 2,4,6-tris(4-phenyl-phenoxy)-1,3,5-triazine derived from 4-phenylphenol cyanate ester and phenyl glycidyl ether were analyzed. In addition to an isocyanurate compound and an oxazolidone compound w...Reaction products of 2,4,6-tris(4-phenyl-phenoxy)-1,3,5-triazine derived from 4-phenylphenol cyanate ester and phenyl glycidyl ether were analyzed. In addition to an isocyanurate compound and an oxazolidone compound which were well known as reaction products of cyanate esters and epoxy resins, compounds with hybrid ring structure of cyanurate/isocyanurate were determined. Gibbs free energies of the compound having hybrid ring structure of cyanurate/isocyanurate with two isocyanurate moiety were found to be lower than that of the compound with cyanurate ring structure through calculations. Calculation data supported the existence of hybrid ring structure of cy-anurate/isocyanurate. It was revealed that isomerization from cyanurate to isocyanurate occurs via hybrid ring structure of cyanurate/isocyanurate in the reaction of aryl cyanurate and epoxy.展开更多
寻找改进蛋白质折叠速率可预测性的经验参数,是理解蛋白质折叠机制的重要途径之一。假设蛋白质的折叠元件为天然态二级结构,对折叠元件的组织过程即为折叠。构造了表征折叠自由能垒高度的经验参数——二级结构数与非局域相互作用的耦合(...寻找改进蛋白质折叠速率可预测性的经验参数,是理解蛋白质折叠机制的重要途径之一。假设蛋白质的折叠元件为天然态二级结构,对折叠元件的组织过程即为折叠。构造了表征折叠自由能垒高度的经验参数——二级结构数与非局域相互作用的耦合(coupling of secondary structure number and nonlocal interaction,CSNI),进一步按照过渡态理论建立了折叠速率预测模型。在现有实验资料集上检验,CSNI模型对折叠速率的拟合优度达到R2=0.73,相关性优于现有的典型模型,并且由CSNI模型所呈现的折叠自由能景观,为深入理解蛋白质折叠机制提供了见解.展开更多
文摘Reaction products of 2,4,6-tris(4-phenyl-phenoxy)-1,3,5-triazine derived from 4-phenylphenol cyanate ester and phenyl glycidyl ether were analyzed. In addition to an isocyanurate compound and an oxazolidone compound which were well known as reaction products of cyanate esters and epoxy resins, compounds with hybrid ring structure of cyanurate/isocyanurate were determined. Gibbs free energies of the compound having hybrid ring structure of cyanurate/isocyanurate with two isocyanurate moiety were found to be lower than that of the compound with cyanurate ring structure through calculations. Calculation data supported the existence of hybrid ring structure of cy-anurate/isocyanurate. It was revealed that isomerization from cyanurate to isocyanurate occurs via hybrid ring structure of cyanurate/isocyanurate in the reaction of aryl cyanurate and epoxy.
文摘寻找改进蛋白质折叠速率可预测性的经验参数,是理解蛋白质折叠机制的重要途径之一。假设蛋白质的折叠元件为天然态二级结构,对折叠元件的组织过程即为折叠。构造了表征折叠自由能垒高度的经验参数——二级结构数与非局域相互作用的耦合(coupling of secondary structure number and nonlocal interaction,CSNI),进一步按照过渡态理论建立了折叠速率预测模型。在现有实验资料集上检验,CSNI模型对折叠速率的拟合优度达到R2=0.73,相关性优于现有的典型模型,并且由CSNI模型所呈现的折叠自由能景观,为深入理解蛋白质折叠机制提供了见解.