Alexander Schmidt scite author profile

Measuring precise concentrations of proteins can provide insights into biological processes. Here, we use efficient protein extraction and sample fractionation and state-of-the-art quantitative mass spectrometry techniques to generate a comprehensive, condition-dependent protein abundance map of Escherichia coli. We measure cellular protein concentrations for 55% of predicted E. coli genes (>2300 proteins) under 22 different experimental conditions and identify methylation and N-terminal protein acetylations previously not known to be prevalent in bacteria. We uncover system-wide proteome allocation, expression regulation, and post-translational adaptations. These data provide a valuable resource for the systems biology and broader E. coli research communities.

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The quantitative proteome of a human cell line

Beck

Schmidt

Malmstroem

et al. 2011

Molecular Systems Biology

736

717

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Identification of cross-linked peptides from large sequence databases

et al. 2008

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We describe a method to identify cross-linked peptides from complex samples and large protein sequence databases. The advance was achieved by combining isotopically tagged cross-linkers, chromatographic enrichment, targeted proteomics, and a novel search engine called xQuest. This software reduces the search space by an upstream candidatepeptide search before the recombination step; we show that xQuest can identify cross-linked peptides from a total E. coli lysate with an unrestricted database search.

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Proteome-wide cellular protein concentrations of the human pathogen Leptospira interrogans

Malmström

Beck

Schmidt

et al. 2009

Nature

396

404

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Mass spectrometry based methods for relative proteome quantification have broadly impacted life science research. However, important research directions, particularly those involving mathematical modeling and simulation of biological processes, also critically depend on absolutely quantitative data, i.e. knowledge of the concentration of the expressed proteins as a function of cellular state. Until now, absolute protein concentration measurements of a significant fraction of the proteome (73%) have only been derived from genetically altered S. cerevisiae cells 1, a technique that is not directly portable from yeast to other species. In this study we developed and applied a mass spectrometry based strategy to determine the absolute quantity i.e. the average number of protein copies per cell in a cell population, for a significant fraction of the proteome in genetically unperturbed cells. Applying the technology to the human pathogen Leptospira interrogans, a spirochete responsible for Leptospirosis 4, we generated an absolute protein abundance scale for 83% of the mass spectrometry detectable proteome, from cells at different states. Taking advantage of the unique cellular dimensions of L. interrogans, we used cryo electron tomography (cryoET) morphological measurements to verify at the single cell level the average absolute abundance values of selected proteins determined by mass spectrometry on a population of cells. As the strategy is relatively fast and applicable to any cell type we expect that it will become a cornerstone of quantitative biology and systems biology.

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