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Nature Research, Nature Communications, 1(7), 2016

DOI: 10.1038/ncomms11334

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Energy efficiency trade-offs drive nucleotide usage in transcribed regions

Journal article published in 2016 by Wei-Hua Chen ORCID, Guanting Lu, Peer Bork ORCID, Songnian Hu ORCID, Martin J. Lercher
This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

AbstractEfficient nutrient usage is a trait under universal selection. A substantial part of cellular resources is spent on making nucleotides. We thus expect preferential use of cheaper nucleotides especially in transcribed sequences, which are often amplified thousand-fold compared with genomic sequences. To test this hypothesis, we derive a mutation-selection-drift equilibrium model for nucleotide skews (strand-specific usage of ‘A’ versus ‘T’ and ‘G’ versus ‘C’), which explains nucleotide skews across 1,550 prokaryotic genomes as a consequence of selection on efficient resource usage. Transcription-related selection generally favours the cheaper nucleotides ‘U’ and ‘C’ at synonymous sites. However, the information encoded in mRNA is further amplified through translation. Due to unexpected trade-offs in the codon table, cheaper nucleotides encode on average energetically more expensive amino acids. These trade-offs apply to both strand-specific nucleotide usage and GC content, causing a universal bias towards the more expensive nucleotides ‘A’ and ‘G’ at non-synonymous coding sites.