☆ 4.6 Article

Ancestral Genes Can Control the Ability of Horizontally Acquired Loci to Confer New Traits

PLOS GENETICS (2011)

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PLOS GENETICS

卷 7, 期 7, 页码 -

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PUBLIC LIBRARY SCIENCE

DOI: 10.1371/journal.pgen.1002184

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Genetics & Heredity

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National Institutes of Health [42336]
Howard Hughes Medical Institute

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Horizontally acquired genes typically function as autonomous units conferring new abilities when introduced into different species. However, we reasoned that proteins preexisting in an organism might constrain the functionality of a horizontally acquired gene product if it operates on an ancestral pathway. Here, we determine how the horizontally acquired pmrD gene product activates the ancestral PmrA/PmrB two-component system in Salmonella enterica but not in the closely related bacterium Escherichia coli. The Salmonella PmrD protein binds to the phosphorylated PmrA protein (PmrA-P), protecting it from dephosphorylation by the PmrB protein. This results in transcription of PmrA-dependent genes, including those conferring polymyxin B resistance. We now report that the E. coli PmrD protein can activate the PmrA/PmrB system in Salmonella even though it cannot do it in E. coli, suggesting that these two species differ in an additional component controlling PmrA-P levels. We establish that the E. coli PmrB displays higher phosphatase activity towards PmrA-P than the Salmonella PmrB, and we identified a PmrB subdomain responsible for this property. Replacement of the E. coli pmrB gene with the Salmonella homolog was sufficient to render E. coli resistant to polymyxin B under PmrD-inducing conditions. Our findings provide a singular example whereby quantitative differences in the biochemical activities of orthologous ancestral proteins dictate the ability of a horizontally acquired gene product to confer species-specific traits. And they suggest that horizontally acquired genes can potentiate selection at ancestral loci.

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The trans-ancestral genomic architecture of glycemic traits

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Yanek, Loic Yengo, Mitsuhiro Yokota, Eleftheria Zeggini, Wei Zheng, Alan B. Zonderman, Jerome I. Rotter, Anna L. Gloyn, Mark I. McCarthy, Josee Dupuis, James B. Meigs, Robert A. Scott, Inga Prokopenko, Aaron Leong, Ching-Ti Liu, Stephen C. J. Parker, Karen L. Mohlke, Claudia Langenberg, Eleanor Wheeler, Andrew P. Morris, Ines Barroso

Summary: A meta-analysis of GWAS including up to 281,416 individuals without diabetes identified 242 loci associated with glycemic traits, with 99 novel loci discovered. The trans-ancestry approach in the study improved the discovery of new loci and the fine-mapping of variants.

NATURE GENETICS (2021)