Next-generation proteomics: towards an integrative view of proteome dynamics. Altelaar, A F M., Munoz, J., & Heck, A. J R. Nat Rev Genet, 14(1):35–48, 2013.
doi  abstract   bibtex   
Next-generation sequencing allows the analysis of genomes, including those representing disease states. However, the causes of most disorders are multifactorial, and systems-level approaches, including the analysis of proteomes, are required for a more comprehensive understanding. The proteome is extremely multifaceted owing to splicing and protein modifications, and this is further amplified by the interconnectivity of proteins into complexes and signalling networks that are highly divergent in time and space. Proteome analysis heavily relies on mass spectrometry (MS). MS-based proteomics is starting to mature and to deliver through a combination of developments in instrumentation, sample preparation and computational analysis. Here we describe this emerging next generation of proteomics and highlight recent applications.
@Article{altelaar13next,
  author    = {Altelaar, A F Maarten and Munoz, Javier and Heck, Albert J R.},
  title     = {Next-generation proteomics: towards an integrative view of proteome dynamics},
  journal   = {Nat Rev Genet},
  year      = {2013},
  volume    = {14},
  number    = {1},
  pages     = {35--48},
  abstract  = {Next-generation sequencing allows the analysis of genomes, including those representing disease states. However, the causes of most disorders are multifactorial, and systems-level approaches, including the analysis of proteomes, are required for a more comprehensive understanding. The proteome is extremely multifaceted owing to splicing and protein modifications, and this is further amplified by the interconnectivity of proteins into complexes and signalling networks that are highly divergent in time and space. Proteome analysis heavily relies on mass spectrometry (MS). MS-based proteomics is starting to mature and to deliver through a combination of developments in instrumentation, sample preparation and computational analysis. Here we describe this emerging next generation of proteomics and highlight recent applications.},
  doi       = {10.1038/nrg3356},
  keywords  = {Biological Markers; Humans; Individualized Medicine; Mass Spectrometry; Protein Binding; Protein Interaction Mapping; PTMs; Proteome; Proteomics},
  owner     = {Sebastian},
  pmid      = {23207911},
  timestamp = {2014.11.16},
}

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