Mtb ALF-SWATH: Absolute quantification of Anchor proteins using AQUA peptides
Schubert et. al; Absolute Proteome Composition and Dynamics during Dormancy and Resuscitation of Mycobacterium tuberculosis; Cell Host Microbe. 2015 Jul 8;18(1):96-108. doi: 10.1016/j.chom.2015.06.001. Epub 2015 Jun 18.
- Organism: Mycobacterium Tuberculosis
- Instrument: TripleTOF 5600
Life science research faces an increasing demand for absolute quantification of biomolecules to determine the molecular composition of a cell and to support mathematical modelling of biochemical processes. Here, we implemented a universally applicable, label-free strategy to estimate absolute cellular protein concentrations on a proteome-wide scale based on SWATH mass spectrometry. We applied this strategy to study proteomic reorganisation in the human pathogen Mycobacterium tuberculosis during exponential growth, hypoxia-induced dormancy and resuscitation. The resulting data set covering >2000 proteins reveals how protein biomass is distributed among cellular functions and dynamically remodelled in response to hypoxic stress. We found that the DosR regulon contributes 20% to the entire cellular protein content during dormancy, whereas the fraction of ribosomal proteins remains largely unchanged at 5-7%. Knowledge of protein copies/cell furthermore allowed us to translate effects of protein regulation into changes in maximal enzymatic reaction velocities, enhancing our understanding of metabolic adaptations.
For absolute label-free abundance estimations of all proteins identified by SWATH
MS, 30 anchor proteins were selected covering a wide abundance range of the Mtb
proteome (Schubert et al., 2013). For each anchor protein one or two synthetic
isotope-labelled reference peptides in defined concentrations as determined by
amino acid analysis were spiked into the samples for accurate absolute quantification
of these anchor proteins (see sample preparation paragraph). To ensure accurate
absolute quantitation results, the linear dynamic quantification range and the lower
limit of quantification for each reference peptide was determined by performing a
dilution series experiment. In the end, 51 peptides showed good linear response
(slope close to 1, axis intercept close to 0, R2 > 0.94) and suitable lower limit of
quantification with respect to endogenous protein levels.
Wayne experiments in Mtb H37Rv and M. bovis BCG were performed as described earlier (Wayne and Hayes, 1996). Samples were taken before the start of the experiment in aerobic cultures (day 0) and at 5, 10 and 20 days of the hypoxic time course (“day 5”, “day 10” and “day 20”). After sampling at day 20, remaining glass vials were opened and cultures were transferred into new vessels for aerated incubation without addition of new culture medium. Further time points were sampled from cultures re-aerated for 6 or 48 hours (“day 20+6h” and “day 20+48h”).
Bacterial pellets were resuspended in lysis buffer containing 8 M urea and 0.1% RapiGest subjected to sonication and bead beating to extract proteins. Protein concentration was determined using a BCA assay. Proteins were reduced and alkylated, followed by proteolysis with Lys-C and trypsin (Glatter et al., 2012). At this step isotopically labelled synthetic reference peptides (AQUA QuantPro, Thermo Fisher Scientific) for absolute quantification of the 30 anchor proteins were added to the samples in concentrations similar to the endogenous peptide. The peptide solution was desalted by C18 reverse-phase chromatography. iRT peptides (RT-kit WR, Biognosys) were added for quality control and to allow determination of system-independent retention times (Escher et al., 2012)
Created on 4/28/15, 9:54 PM