Cargando…

A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change

Climate change presents distinct ecological and physiological challenges to plants as extreme climate events become more common. Understanding how species have adapted to drought, especially ecologically important nonmodel organisms, will be crucial to elucidate potential biological pathways for dro...

Descripción completa

Detalles Bibliográficos
Autores principales: Melton, Anthony E., Beck, James, Galla, Stephanie J., Jenkins, Jerry, Handley, Lori, Kim, Min, Grimwood, Jane, Schmutz, Jeremy, Richardson, Bryce A., Serpe, Marcelo, Novak, Stephen, Buerki, Sven
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8571618/
https://www.ncbi.nlm.nih.gov/pubmed/34765187
http://dx.doi.org/10.1002/ece3.8245
_version_ 1784595061604876288
author Melton, Anthony E.
Beck, James
Galla, Stephanie J.
Jenkins, Jerry
Handley, Lori
Kim, Min
Grimwood, Jane
Schmutz, Jeremy
Richardson, Bryce A.
Serpe, Marcelo
Novak, Stephen
Buerki, Sven
author_facet Melton, Anthony E.
Beck, James
Galla, Stephanie J.
Jenkins, Jerry
Handley, Lori
Kim, Min
Grimwood, Jane
Schmutz, Jeremy
Richardson, Bryce A.
Serpe, Marcelo
Novak, Stephen
Buerki, Sven
author_sort Melton, Anthony E.
collection PubMed
description Climate change presents distinct ecological and physiological challenges to plants as extreme climate events become more common. Understanding how species have adapted to drought, especially ecologically important nonmodel organisms, will be crucial to elucidate potential biological pathways for drought adaptation and inform conservation strategies. To aid in genome‐to‐phenome research, a draft genome was assembled for a diploid individual of Artemisia tridentata subsp. tridentata, a threatened keystone shrub in western North America. While this taxon has few genetic resources available and genetic/genomics work has proven difficult due to genetic heterozygosity in the past, a draft genome was successfully assembled. Aquaporin (AQP) genes and their promoter sequences were mined from the draft genome to predict mechanisms regulating gene expression and generate hypotheses on key genes underpinning drought response. Fifty‐one AQP genes were fully assembled within the draft genome. Promoter and phylogenetic analyses revealed putative duplicates of A. tridentata subsp. tridentata AQPs which have experienced differentiation in promoter elements, potentially supporting novel biological pathways. Comparison with nondrought‐tolerant congener supports enrichments of AQP genes in this taxon during adaptation to drought stress. Differentiation of promoter elements revealed that paralogues of some genes have evolved to function in different pathways, highlighting these genes as potential candidates for future research and providing critical hypotheses for future genome‐to‐phenome work.
format Online
Article
Text
id pubmed-8571618
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-85716182021-11-10 A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change Melton, Anthony E. Beck, James Galla, Stephanie J. Jenkins, Jerry Handley, Lori Kim, Min Grimwood, Jane Schmutz, Jeremy Richardson, Bryce A. Serpe, Marcelo Novak, Stephen Buerki, Sven Ecol Evol Research Articles Climate change presents distinct ecological and physiological challenges to plants as extreme climate events become more common. Understanding how species have adapted to drought, especially ecologically important nonmodel organisms, will be crucial to elucidate potential biological pathways for drought adaptation and inform conservation strategies. To aid in genome‐to‐phenome research, a draft genome was assembled for a diploid individual of Artemisia tridentata subsp. tridentata, a threatened keystone shrub in western North America. While this taxon has few genetic resources available and genetic/genomics work has proven difficult due to genetic heterozygosity in the past, a draft genome was successfully assembled. Aquaporin (AQP) genes and their promoter sequences were mined from the draft genome to predict mechanisms regulating gene expression and generate hypotheses on key genes underpinning drought response. Fifty‐one AQP genes were fully assembled within the draft genome. Promoter and phylogenetic analyses revealed putative duplicates of A. tridentata subsp. tridentata AQPs which have experienced differentiation in promoter elements, potentially supporting novel biological pathways. Comparison with nondrought‐tolerant congener supports enrichments of AQP genes in this taxon during adaptation to drought stress. Differentiation of promoter elements revealed that paralogues of some genes have evolved to function in different pathways, highlighting these genes as potential candidates for future research and providing critical hypotheses for future genome‐to‐phenome work. John Wiley and Sons Inc. 2021-10-19 /pmc/articles/PMC8571618/ /pubmed/34765187 http://dx.doi.org/10.1002/ece3.8245 Text en © 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd. https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Melton, Anthony E.
Beck, James
Galla, Stephanie J.
Jenkins, Jerry
Handley, Lori
Kim, Min
Grimwood, Jane
Schmutz, Jeremy
Richardson, Bryce A.
Serpe, Marcelo
Novak, Stephen
Buerki, Sven
A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change
title A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change
title_full A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change
title_fullStr A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change
title_full_unstemmed A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change
title_short A draft genome provides hypotheses on drought tolerance in a keystone plant species in Western North America threatened by climate change
title_sort draft genome provides hypotheses on drought tolerance in a keystone plant species in western north america threatened by climate change
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8571618/
https://www.ncbi.nlm.nih.gov/pubmed/34765187
http://dx.doi.org/10.1002/ece3.8245
work_keys_str_mv AT meltonanthonye adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT beckjames adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT gallastephaniej adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT jenkinsjerry adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT handleylori adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT kimmin adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT grimwoodjane adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT schmutzjeremy adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT richardsonbrycea adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT serpemarcelo adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT novakstephen adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT buerkisven adraftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT meltonanthonye draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT beckjames draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT gallastephaniej draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT jenkinsjerry draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT handleylori draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT kimmin draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT grimwoodjane draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT schmutzjeremy draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT richardsonbrycea draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT serpemarcelo draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT novakstephen draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange
AT buerkisven draftgenomeprovideshypothesesondroughttoleranceinakeystoneplantspeciesinwesternnorthamericathreatenedbyclimatechange