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Plant ecological genomics at the limits of life in the Atacama Desert
Author(s) -
Gil Eshel,
Viviana Araus,
Soledad Undurraga,
Daniela C. Soto,
Carol Moraga,
Alejandro Montecinos,
Tomás C. Moyano,
Jonathan Maldonado,
Francisco Javier Mato Díaz,
Kranthi Varala,
Chase W. Nelson,
Orlando ContrerasLópez,
Henrietta Pál-Gábor,
Tatiana Kraiser,
Gabriela CarrascoPuga,
Ricardo Nilo-Poyanco,
Charles Zegar,
Ariel Orellana,
Martín Montecino,
Alejandro Maass,
Miguel L. Allende,
Robert DeSalle,
Dennis Stevenson,
Maurício González,
Claudio Latorre,
Gloria M. Coruzzi,
Rodrigo A. Gutiérrez
Publication year - 2021
Publication title -
proceedings of the national academy of sciences of the united states of america
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.011
H-Index - 771
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.2101177118
Subject(s) - biology , adaptation (eye) , ecology , extreme environment , ecosystem , genetics , bacteria , neuroscience
The Atacama Desert in Chile-hyperarid and with high-ultraviolet irradiance levels-is one of the harshest environments on Earth. Yet, dozens of species grow there, including Atacama-endemic plants. Herein, we establish the Talabre-Lejía transect (TLT) in the Atacama as an unparalleled natural laboratory to study plant adaptation to extreme environmental conditions. We characterized climate, soil, plant, and soil-microbe diversity at 22 sites (every 100 m of altitude) along the TLT over a 10-y period. We quantified drought, nutrient deficiencies, large diurnal temperature oscillations, and pH gradients that define three distinct vegetational belts along the altitudinal cline. We deep-sequenced transcriptomes of 32 dominant plant species spanning the major plant clades, and assessed soil microbes by metabarcoding sequencing. The top-expressed genes in the 32 Atacama species are enriched in stress responses, metabolism, and energy production. Moreover, their root-associated soils are enriched in growth-promoting bacteria, including nitrogen fixers. To identify genes associated with plant adaptation to harsh environments, we compared 32 Atacama species with the 32 closest sequenced species, comprising 70 taxa and 1,686,950 proteins. To perform phylogenomic reconstruction, we concatenated 15,972 ortholog groups into a supermatrix of 8,599,764 amino acids. Using two codon-based methods, we identified 265 candidate positively selected genes (PSGs) in the Atacama plants, 64% of which are located in Pfam domains, supporting their functional relevance. For 59/184 PSGs with an Arabidopsis ortholog, we uncovered functional evidence linking them to plant resilience. As some Atacama plants are closely related to staple crops, these candidate PSGs are a "genetic goldmine" to engineer crop resilience to face climate change.

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