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A two-step adaptive walk rewires nutrient transport in a challenging edaphic environment

Tergemina, Emmanuel; Elfarargi, Ahmed F.; Flis, Paulina; Fulgione, Andrea; Göktay, Mehmet; Neto, Célia; Scholle, Marleen; Flood, Pádraic J.; Xerri, Sophie Asako; Zicola, Johan; Döring, Nina; Dinis, Herculano; Krämer, Ute; Salt, David E.; Hancock, Angela M.

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Authors

Emmanuel Tergemina

Ahmed F. Elfarargi

Paulina Flis

Andrea Fulgione

Mehmet Göktay

Célia Neto

Marleen Scholle

Pádraic J. Flood

Sophie Asako Xerri

Johan Zicola

Nina Döring

Herculano Dinis

Ute Krämer

David E. Salt

Angela M. Hancock



Abstract

Most well-characterized cases of adaptation involve single genetic loci. Theory suggests that multilocus adaptive walks should be common, but these are challenging to identify in natural populations. Here, we combine trait mapping with population genetic modeling to show that a two-step process rewired nutrient homeostasis in a population of Arabidopsis as it colonized the base of an active stratovolcano characterized by extremely low soil manganese (Mn). First, a variant that disrupted the primary iron (Fe) uptake transporter gene (IRT1) swept quickly to fixation in a hard selective sweep, increasing Mn but limiting Fe in the leaves. Second, multiple independent tandem duplications occurred at NRAMP1 and together rose to near fixation in the island population, compensating the loss of IRT1 by improving Fe homeostasis. This study provides a clear case of a multilocus adaptive walk and reveals how genetic variants reshaped a phenotype and spread over space and time.

Journal Article Type Article
Acceptance Date Apr 1, 2022
Online Publication Date Jun 18, 2022
Publication Date May 1, 2022
Deposit Date Jun 22, 2022
Publicly Available Date Jun 24, 2022
Journal Science Advances
Electronic ISSN 2375-2548
Publisher American Association for the Advancement of Science (AAAS)
Peer Reviewed Peer Reviewed
Volume 8
Issue 20
Article Number eabm9385
DOI https://doi.org/10.1126/sciadv.abm9385
Keywords Multidisciplinary
Public URL https://nottingham-repository.worktribe.com/output/8138529
Publisher URL https://www.science.org/doi/10.1126/sciadv.abm9385

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