Molecular Systems Biology (Apr 2015)

Inferring causal metabolic signals that regulate the dynamic TORC1‐dependent transcriptome

  • Ana Paula Oliveira,
  • Sotiris Dimopoulos,
  • Alberto Giovanni Busetto,
  • Stefan Christen,
  • Reinhard Dechant,
  • Laura Falter,
  • Morteza Haghir Chehreghani,
  • Szymon Jozefczuk,
  • Christina Ludwig,
  • Florian Rudroff,
  • Juliane Caroline Schulz,
  • Asier González,
  • Alexandre Soulard,
  • Daniele Stracka,
  • Ruedi Aebersold,
  • Joachim M Buhmann,
  • Michael N Hall,
  • Matthias Peter,
  • Uwe Sauer,
  • Jörg Stelling

DOI
https://doi.org/10.15252/msb.20145475
Journal volume & issue
Vol. 11, no. 4
pp. 1 – 15

Abstract

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Abstract Cells react to nutritional cues in changing environments via the integrated action of signaling, transcriptional, and metabolic networks. Mechanistic insight into signaling processes is often complicated because ubiquitous feedback loops obscure causal relationships. Consequently, the endogenous inputs of many nutrient signaling pathways remain unknown. Recent advances for system‐wide experimental data generation have facilitated the quantification of signaling systems, but the integration of multi‐level dynamic data remains challenging. Here, we co‐designed dynamic experiments and a probabilistic, model‐based method to infer causal relationships between metabolism, signaling, and gene regulation. We analyzed the dynamic regulation of nitrogen metabolism by the target of rapamycin complex 1 (TORC1) pathway in budding yeast. Dynamic transcriptomic, proteomic, and metabolomic measurements along shifts in nitrogen quality yielded a consistent dataset that demonstrated extensive re‐wiring of cellular networks during adaptation. Our inference method identified putative downstream targets of TORC1 and putative metabolic inputs of TORC1, including the hypothesized glutamine signal. The work provides a basis for further mechanistic studies of nitrogen metabolism and a general computational framework to study cellular processes.

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