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The quantitative metabolome is shaped by abiotic constraints

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dc.contributor University of Iceland
dc.contributor.author Akbari, Amir
dc.contributor.author Yurkovich, James T.
dc.contributor.author Zielinski, Daniel C.
dc.contributor.author Pálsson, Bernhard Örn
dc.date.accessioned 2021-11-02T01:00:34Z
dc.date.available 2021-11-02T01:00:34Z
dc.date.issued 2021-05-26
dc.identifier.citation Akbari , A , Yurkovich , J T , Zielinski , D C & Pálsson , B Ö 2021 , ' The quantitative metabolome is shaped by abiotic constraints ' , Nature Communications , vol. 12 , no. 1 , 3178 , pp. 3178 . https://doi.org/10.1038/s41467-021-23214-9
dc.identifier.issn 2041-1723
dc.identifier.other 35984821
dc.identifier.other 3bd151a7-e335-4d7c-a5ae-c4f96efd957f
dc.identifier.other 85106937089
dc.identifier.other 34039963
dc.identifier.other unpaywall: 10.1038/s41467-021-23214-9
dc.identifier.other 000658301200008
dc.identifier.uri https://hdl.handle.net/20.500.11815/2700
dc.description Funding Information: We thank Jared Broddrick’s for his valuable comments on the manuscript. We would like to thank Sharon Grubner and Jonathan Hsu. This work was funded by the Novo Nordisk Foundation (Grant Number NNF10CC1016517), the National Institutes of Health (Grant Number GM057089), and the Institute for Systems Biology’s Translational Research Fellows Program (J.T.Y.). Publisher Copyright: © 2021, The Author(s).
dc.description.abstract Living systems formed and evolved under constraints that govern their interactions with the inorganic world. These interactions are definable using basic physico-chemical principles. Here, we formulate a comprehensive set of ten governing abiotic constraints that define possible quantitative metabolomes. We apply these constraints to a metabolic network of Escherichia coli that represents 90% of its metabolome. We show that the quantitative metabolomes allowed by the abiotic constraints are consistent with metabolomic and isotope-labeling data. We find that: (i) abiotic constraints drive the evolution of high-affinity phosphate transporters; (ii) Charge-, hydrogen- and magnesium-related constraints underlie transcriptional regulatory responses to osmotic stress; and (iii) hydrogen-ion and charge imbalance underlie transcriptional regulatory responses to acid stress. Thus, quantifying the constraints that the inorganic world imposes on living systems provides insights into their key characteristics, helps understand the outcomes of evolutionary adaptation, and should be considered as a fundamental part of theoretical biology and for understanding the constraints on evolution.
dc.format.extent 2515427
dc.format.extent 3178
dc.language.iso en
dc.relation.ispartofseries Nature Communications; 12(1)
dc.rights info:eu-repo/semantics/openAccess
dc.subject Efnaskipti
dc.subject Gerlar
dc.subject Lífeðlisfræði
dc.subject Acids/metabolism
dc.subject Adaptation, Physiological
dc.subject Biological Evolution
dc.subject Escherichia coli Proteins/analysis
dc.subject Escherichia coli/chemistry
dc.subject Gene Expression Regulation/physiology
dc.subject Hydrogen/metabolism
dc.subject Magnesium/metabolism
dc.subject Metabolic Networks and Pathways/physiology
dc.subject Metabolome/physiology
dc.subject Metabolomics
dc.subject Osmosis
dc.subject Phosphate Transport Proteins/metabolism
dc.subject Phosphates/metabolism
dc.subject Stress, Physiological
dc.title The quantitative metabolome is shaped by abiotic constraints
dc.type /dk/atira/pure/researchoutput/researchoutputtypes/contributiontojournal/article
dc.description.version Peer reviewed
dc.identifier.doi 10.1038/s41467-021-23214-9
dc.relation.url http://www.scopus.com/inward/record.url?scp=85106937089&partnerID=8YFLogxK


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