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The molecular landscape of cellular metal ion biology

Simran Kaur Aulakh, Oliver Lemke, Łukasz Szyrwiel, Stephan Kamrad, Yu Chen, Johannes Hartl, Michael Mülleder, Jens Nielsen, Markus Ralser

2025Cell Systems13 citationsDOIOpen Access PDF

Abstract

Metal ions have crucial roles in cells, but the impact of their availability on biological networks is underexplored. We systematically quantified yeast cell growth and the corresponding metallomic, proteomic, and genetic responses to perturbations in metal availability along concentration gradients of all growth-essential metal ions. We report a remarkable metal concentration dependency of cellular networks, with around half of the proteome, and most signaling pathways such as target of rapamycin (TOR), being metal responsive. Although the biological response to each metal is distinct, our data reveal common properties of metal responsiveness, such as concentration interdependencies and metal homeostasis. Furthermore, our resource indicates that many understudied proteins have functions related to metal biology and reveals that metalloenzymes occupy central nodes in metabolic networks. This work provides a framework for understanding the critical role of metal ions in cellular function, with broader implications for manipulating metal homeostasis in biotechnology and medicine.

Topics & Concepts

BiologyComputational biologyEvolutionary biologyChemistryBiophysicsTrace Elements in HealthRNA and protein synthesis mechanismsMitochondrial Function and Pathology