2019
DOI: 10.1101/767996
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Kinetic profiling of metabolic specialists demonstrates stability and consistency of in vivo enzyme turnover numbers

Abstract: Enzyme turnover numbers (kcats) are essential for a quantitative understanding of cells. Because kcats are traditionally measured in low-throughput assays, they are often noisy, nonphysiological, inconsistent, and labor-intensive to obtain. We use a data-driven approach to estimate in vivo kcats using metabolic specialist E. coli strains that resulted from gene knockouts in central metabolism followed by metabolic optimization via laboratory evolution. By combining absolute proteomics with fluxomics data, we f… Show more

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Cited by 14 publications
(27 citation statements)
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“…The bacterial growth rate is the result of a complex regulatory interplay that fine tunes the allocation of cellular resources such as the ribosomes. Several works have proven that the growth rate in a determined environment can be increased if the proteome is optimized, by regulatory and other mutations, to that specific environment (Cheng et al, 2014; Heckmann et al, 2020; LaCroix et al, 2015). Indeed, rewiring E. coli transcription networks with fusions of promoters and master regulators (e.g.…”
Section: Discussionmentioning
confidence: 99%
“…The bacterial growth rate is the result of a complex regulatory interplay that fine tunes the allocation of cellular resources such as the ribosomes. Several works have proven that the growth rate in a determined environment can be increased if the proteome is optimized, by regulatory and other mutations, to that specific environment (Cheng et al, 2014; Heckmann et al, 2020; LaCroix et al, 2015). Indeed, rewiring E. coli transcription networks with fusions of promoters and master regulators (e.g.…”
Section: Discussionmentioning
confidence: 99%
“…Note 3. Ironically, the published ME models [49,[122][123][124]149] do not use any kinetic expressions (Table A1) containing the concentration terms s or M. Instead, they rely on a binary search and constraints, such as defining the top and low limits of s while applying objective functions. Three disadvantages are obvious: (i) the subjectivity of constraints, (ii) a longer computation time, and (iii) missing the opportunity to reproduce a fine metabolic control in growing cells, an instant adjustment of enzymatic activity to the available reactant concentration in the cytosol.…”
Section: Appendix B24 Substrate Saturation (Ss) Of Enzymes Catalyzing Polysubstrate Reactionsmentioning
confidence: 99%
“…Processed data for the Proteomics-2 dataset was acquired from Heckmann et al 51 and augmented with additional samples for growth on different carbon sources that were acquired as described in Heckmann et al 51 (See Supplementary Dataset 1 for details). 460 Protein abundance estimation is described in Heckmann et al 51 ; in short, the top3 metric 63,64 was calibrated using the UPS2 standard to obtain protein amount loaded based on the average of three technical replicates per sample. For each strain, two biological replicates were profiled, and abundances were averaged before applying ICA.…”
Section: Proteomics Data Processing 455mentioning
confidence: 99%