| 1. | Tryptophane also appears to be useful in easing pain .
色氨酸似乎还具有镇痛的作用。 |
| 2. | Adsorption ; scanning tunneling microscopy ; graphite ; tryptophane
表面吸附扫描隧道显微镜石墨色氨酸 |
| 3. | Effect on microstructure of tryptophane extracted by reversed microemulsion
不同因素对微乳液萃取色氨酸微结构的影响 |
| 4. | Adsorption of tryptophane on graphite investigated by scanning tunneling microscopy
色氨酸分子在石墨表面吸附的扫描隧道显微镜研究 |
| 5. | The stacking interactions between near tryptophane molecule s side chains are responsible for the formation of these two kinds of structures
这2种有序结构的形成原因被认为与相邻色氨酸分子侧链之间的堆积相互作用有关。 |
| 6. | The adsorption behaviours of tryptophane on graphite hopg have been investigated under low vacuum conditions at room temperature using scanning tunneling microscopy
用扫描隧道显微镜stm研究了室温下色氨酸分子l - tryptophane在石墨hopg表面的吸附行为。 |
| 7. | The acquired stm images exhibit that tryptophane can form a uniform adsorption layer at room temperature . two kinds of structures were observed : two - dimensional stripe structure and two - dimensional monoclinic lattice
实验发现,在室温下色氨酸分子可以在石墨表面形成均匀的吸附层,并形成二维条状结构和二维单斜晶格两种有序结构。 |
| 8. | Abstract : the effects of terbium ion on the conformation of calmodulin and on the interaction between calmodulin and melittin have been studied by the endogenous fluorescent spectrometry of calmodulin and melittin , and the sensitized fluorescent spectrometry of terbium ion , respectively . the results show that terbium ions have a tight binding site in the i and ii metal - binding sites of calmodulin . the conformation of calmodulin induced by terbium ion can bind melittin and transfer the tryptophane residue of melittin to a relatively hydrophobic environment , while the binding of melittin to calmodulin produces effect on the binding orders of terbium ion in camodulin . results from ft - ir spectrometry have revealed that upon binding of lanthanum ion , apo - calmodulin undergoes a conformational change with the increase of - helix content and the decrease of - sheet content . melittin ' s binding to calmodulin has no effect on its conformation induced by the binding of lanthanum ion to calmodulin
文摘:分别用钙调蛋白和蜂毒素的内源荧光光谱以及铽离子的敏化荧光光谱考察了铽离子对钙调蛋白构象变化以及对钙调蛋白与蜂毒素相互作用的影响.结果表明,铽离子首先结合在钙调蛋白的第和第位点,铽离子不影响钙调蛋白与蜂毒素的相互作用,蜂毒素与钙调蛋白作用后不影响铽离子在钙调蛋白上的键合顺序.傅里叶变换红外光谱结果表明三价的镧离子与钙调蛋白作用使钙调蛋白的螺旋结构增加,折叠结构减少,与钙离子对它的二级结构影响相类似.稀土离子在钙调蛋白-蜂毒素复合体系中主要与钙调蛋白作用 |
