Takao T, Hori H, Okamoto K, Harada A, Kamachi M, Shimonishi Y
Institute for Protein Research, Osaka University, Japan.
Rapid Commun Mass Spectrom. 1991 Jul;5(7):312-5. doi: 10.1002/rcm.1290050703.
The combination of collision-induced dissociation (CID) and linked-scan analysis was used for analysing the sequence ions from the precursor ion of a peptide, which had been labelled with 18O at its carboxyl terminus (C-terminus) using 40 atom % H2 18O. The CID and linked-scan mass spectrum of the labelled peptide gave two series of sequence-ion signals: the one, originating from the C-terminus of the labelled peptide, showed a doublet signal due to the part-incorporation of 18O into the carboxyl group at the C-terminus, while the other, originating from the amino terminus (N-terminus), has the natural isotopic ion distribution. From the distribution of the isotopic ions in a single CID spectrum, the sequence ions containing the C-terminus could be readily differentiated from those containing the N-terminus, allowing the facile assignment of sequence ions to the amino-acid sequence of a peptide by CID and linked-scan analysis. This method was successfully applied to determination of the amino-acid sequence of the light-chain of mouse anti-porphyrin monoclonal antibody.
碰撞诱导解离(CID)与联动扫描分析相结合用于分析肽前体离子的序列离子,该肽在其羧基末端(C末端)使用40原子百分比的H2 18O标记了18O。标记肽的CID和联动扫描质谱给出了两个系列的序列离子信号:一个源自标记肽的C末端,由于18O部分掺入C末端的羧基而显示出双峰信号,而另一个源自氨基末端(N末端),具有天然同位素离子分布。从单个CID谱图中的同位素离子分布,可以很容易地将含C末端的序列离子与含N末端的序列离子区分开来,从而通过CID和联动扫描分析将序列离子轻松地指定给肽的氨基酸序列。该方法成功应用于小鼠抗卟啉单克隆抗体轻链氨基酸序列的测定。