High Performance Computational Analysis of Large-scale Proteome Data Sets to Assess Incremental Contribution to Coverage of the Human Genome
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- 作者:Nadin Neuhauser ; Nagarjuna Nagaraj ; Peter McHardy ; Sara Zanivan ; Richard Scheltema ; J眉rgen Cox ; Matthias Mann
- 刊名:Journal of Proteome Research
- 出版年:2013
- 出版时间:June 7, 2013
- 年:2013
- 卷:12
- 期:6
- 页码:2858-2868
- 全文大小:666K
- 年卷期:v.12,no.6(June 7, 2013)
- ISSN:1535-3907
文摘
Computational analysis of shotgun proteomics data can now be performed in a completely automated and statistically rigorous way, as exemplified by the freely available MaxQuant environment. The sophisticated algorithms involved and the sheer amount of data translate into very high computational demands. Here we describe parallelization and memory optimization of the MaxQuant software with the aim of executing it on a large computer cluster. We analyze and mitigate bottlenecks in overall performance and find that the most time-consuming algorithms are those detecting peptide features in the MS1 data as well as the fragment spectrum search. These tasks scale with the number of raw files and can readily be distributed over many CPUs as long as memory access is properly managed. Here we compared the performance of a parallelized version of MaxQuant running on a standard desktop, an I/O performance optimized desktop computer (鈥済ame computer鈥?, and a cluster environment. The modified gaming computer and the cluster vastly outperformed a standard desktop computer when analyzing more than 1000 raw files. We apply our high performance platform to investigate incremental coverage of the human proteome by high resolution MS data originating from in-depth cell line and cancer tissue proteome measurements.