Department for Proteomics and Signal Transduction, Max-Planck Institute of Biochemistry, Martinsried, Germany.
J Proteome Res. 2011 Apr 1;10(4):1785-93. doi: 10.1021/pr101060v. Epub 2011 Feb 28.
Shotgun proteomics entails the identification of as many peptides as possible from complex mixtures. Here we investigate how many peptides are detectable by high resolution MS in standard LC runs of cell lysate and how many of them are accessible to data-dependent MS/MS. Isotope clusters were determined by MaxQuant and stringently filtered for charge states and retention times typical of peptides. This resulted in more than 100,000 likely peptide features, of which only about 16% had been targeted for MS/MS. Three instrumental attributes determine the proportion of additional peptides that can be identified: sequencing speed, sensitivity, and precursor ion isolation. In our data, an MS/MS scan rate of 25/s would be necessary to target all peptide features, but this drops to less than 17/s for reasonably abundant peptides. Sensitivity is a greater challenge, with many peptide features requiring long MS/MS injection times (>250 ms). The greatest limitation, however, is the generally low proportion of the target peptide ion intensity in the MS/MS selection window (the "precursor ion fraction" or PIF). Median PIF is only 0.14, making the peptides difficult to identify by standard MS/MS methods. Our results aid in developing strategies to further increase coverage in shotgun proteomics.
shotgun 蛋白质组学需要从复杂混合物中尽可能多地鉴定肽。在这里,我们研究了在细胞裂解物的标准 LC 运行中通过高分辨率 MS 可以检测到多少肽,以及有多少肽可以进行依赖数据的 MS/MS。同位素簇由 MaxQuant 确定,并严格过滤电荷状态和保留时间,这些典型的肽。这导致了超过 100,000 个可能的肽特征,其中只有约 16% 被靶向用于 MS/MS。三个仪器属性决定了可以识别的额外肽的比例:测序速度、灵敏度和前体离子隔离。在我们的数据中,需要以 25/s 的 MS/MS 扫描速度来靶向所有肽特征,但对于合理丰富的肽,这降至不到 17/s。灵敏度是一个更大的挑战,许多肽特征需要长的 MS/MS 注入时间(>250ms)。然而,最大的限制是在 MS/MS 选择窗口(“前体离子分数”或 PIF)中目标肽离子强度的比例通常较低。中位数 PIF 仅为 0.14,使得通过标准 MS/MS 方法难以识别肽。我们的结果有助于制定进一步增加 shotgun 蛋白质组学覆盖率的策略。
