Abstract
Chaperones are fundamental to regulating the heat shock response, mediating protein recovery from thermal‐induced misfolding and aggregation. Using the QconCAT strategy and selected reaction monitoring (SRM) for absolute protein quantification, we have determined copy per cell values for 49 key chaperones in Saccharomyces cerevisiae under conditions of normal growth and heat shock. This work extends a previous chemostat quantification study by including up to five Q‐peptides per protein to improve confidence in protein quantification. In contrast to the global proteome profile of S. cerevisiae in response to heat shock, which remains largely unchanged as determined by label‐free quantification, many of the chaperones are upregulated with an average two‐fold increase in protein abundance. Interestingly, eight of the significantly upregulated chaperones are direct gene targets of heat shock transcription factor‐1. By performing absolute quantification of chaperones under heat stress for the first time, we were able to evaluate the individual protein‐level response. Furthermore, this SRM data was used to calibrate label‐free quantification values for the proteome in absolute terms, thus improving relative quantification between the two conditions. This study significantly enhances the largely transcriptomic data available in the field and illustrates a more nuanced response at the protein level.
Highlights
Challenged by their changing environments, most organisms have evolved rapid adaptation responses to external stresses
For 15 of the 63 chaperones fewer candidate quantotypic peptides passed all the quality control steps; nine chaperones were targeted by four Q-peptides, three chaperones were targeted by three Q-peptides, two chaperones (Ssb1 and Ssb2) were targeted by only two Q-peptides, with Ssa1 targeted by a single Q-peptide
Targeting known chaperones in S. cerevisiae with more than two Q-peptides in the design of a QconCAT standard construct has added to the existing pool of available Q-peptides for quantification of chaperone proteins from S. cerevisiae, and increased the total number of proteins quantified
Summary
Challenged by their changing environments, most organisms have evolved rapid adaptation responses to external stresses. Elevation of temperatures above the optimal growth conditions for Saccharomyces cerevisiae.
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