Balgley Brian M, Wang Weijie, Song Tao, Fang Xueping, Yang Li, Lee Cheng S
Calibrant Biosystems, Gaithersburg, MD 20878, USA.
Electrophoresis. 2008 Jul;29(14):3047-54. doi: 10.1002/elps.200800050.
Multidimensional separations of the peptides resulting from enzymatic digestions of complex protein mixtures prior to MS/MS, namely shotgun proteomics, is increasingly utilized for large-scale identification and quantitation of proteins. Inherent to the performance of proteomic measurements is the resolving power of each of the separations both separately and in combination. By simply raising the number of CIEF fractions, the resulting enhancement in the overall peak capacity of combined CIEF/nano-RPLC separations greatly reduces the complexity of eluted peptides prior to MS detection and sequencing and increases the proteome coverage. The capabilities of the CIEF-based proteome platform coupled with the spectral counting approach to confidently and reproducibly quantify proteins and changes in protein expression levels among samples are evaluated. Analytical reproducibility of relative protein abundance is determined to exhibit a Pearson R(2) value greater than 0.99 and a CV of 14.1%. The platform is demonstrated to be capable of measuring changes in protein expression as low as 1.5-fold, with confidence following multiple testing adjustment.
在进行串联质谱(MS/MS)分析之前,对复杂蛋白质混合物进行酶解产生的肽段进行多维分离,即鸟枪法蛋白质组学,越来越多地用于蛋白质的大规模鉴定和定量。蛋白质组学测量的性能所固有的是每种分离方法单独以及组合使用时的分离能力。通过简单地增加毛细管等速电泳(CIEF)馏分的数量,CIEF/纳升级反相液相色谱(nano-RPLC)组合分离的整体峰容量的提高极大地降低了质谱检测和测序之前洗脱肽段的复杂性,并增加了蛋白质组覆盖率。评估了基于CIEF的蛋白质组平台与光谱计数方法相结合以可靠且可重复地定量蛋白质以及样品间蛋白质表达水平变化的能力。确定相对蛋白质丰度的分析重现性表现出大于0.99的Pearson相关系数R²值和14.1%的变异系数(CV)。该平台被证明能够测量低至1.5倍的蛋白质表达变化,在经过多次检验校正后具有可信度。
