1.While search engines can derive peptides in silico from protein sequences, this is usually limited to standard digestion algorithms.
由于搜索引擎能够从蛋白质序列中用计算的方法获得多肽,这往往受限于标准的消化算法。
2.chemical analysis of refractories . silica materials , silico - argillaceous and argillaceous materials . determination of phosphorus.
耐火材料化学分析。硅材料硅土材料和粘土材料。磷含量测定。
3.chemical analysis of refractories . silica materials , silico - argillaceous and argillaceous materials . determination of aluminium.
耐火材料化学分析。硅材料硅土材料和粘土材料。铝含量测定。
4.chemical analysis of refractories . silica materials , silico - argillaceous and argillaceous materials . determination of manganese.
耐火材料的化学分析。硅材料硅土材料和粘土材料。锰的测定。
5.chemical analysis of refractories . silica materials , silico - argillaceous and argillaceous materials . determination of titanium.
耐火材料化学分析。硅材料硅土材料和粘土材料。钛含量测定。
6.chemical analysis of refractories . silica materials , silico - argillaceous and argillaceous materials . determination of iron.
耐火材料化学分析。硅材料硅土材料和粘土材料。铁含量测定。
7.Chemical analysis of silico-manganese. Determination of phosphorus content. Spectrophotometric method.
锰硅的化学分析.磷含量测定.分光光度法
8.Chemical analysis of silico-chromium. Determination of phosphorus content. Spectrophotometric method.
铬硅的化学分析.磷含量测定.分光光度法
9.This review explores in silico approaches and selected published models for predicting ADME properties from chemical structure alone.
本次审查探讨在硅片的方法和选择发表预测模型ADME性质从化学结构本身。
10.Mass spectrometry based RNA database as substitution of above in silico database can be used with further development of this technique.
随着这一技术的逐渐应用和发展,将来还可能直接建立基于质谱数据的核酸数据库。