Gustavo A. Silva‐Arias, Edeline Gagnon, Surya Hembrom, Alexander Fastner, Muhammad Ramzan Khan, Remco Stam, Aurélien Tellier
{"title":"Solanum chilense 不同种群中 NLRs 的存在-不存在变异模式取决于种系,主要由过去的人口历史决定","authors":"Gustavo A. Silva‐Arias, Edeline Gagnon, Surya Hembrom, Alexander Fastner, Muhammad Ramzan Khan, Remco Stam, Aurélien Tellier","doi":"10.1111/nph.20293","DOIUrl":null,"url":null,"abstract":"Summary<jats:list list-type=\"bullet\"> <jats:list-item>Understanding the evolution of pathogen resistance genes (nucleotide‐binding site‐leucine‐rich repeats, NLRs) within a species requires a comprehensive examination of factors that affect gene loss and gain.</jats:list-item> <jats:list-item>We present a new reference genome of <jats:italic>Solanum chilense</jats:italic>, which leads to an increased number and more accurate annotation of NLRs. Using a target capture approach, we quantify the presence–absence variation (PAV) of NLR <jats:italic>loci</jats:italic> across 20 populations from different habitats. We build a rigorous pipeline to validate the identification of PAV of NLRs and then show that PAV is larger within populations than between populations, suggesting that maintenance of NLR diversity is linked to population dynamics.</jats:list-item> <jats:list-item>The amount of PAV appears not to be correlated with the NLR presence in gene clusters in the genome, but rather with the past demographic history of the species, with loss of NLRs in diverging (smaller) populations at the distribution edges. Finally, using a redundancy analysis, we find limited evidence of PAV being linked to environmental gradients.</jats:list-item> <jats:list-item>Our results suggest that random processes (genetic drift and demography) and weak positive selection for local adaptation shape the evolution of NLRs at the single nucleotide polymorphism and PAV levels in an outcrossing plant with high nucleotide diversity.</jats:list-item> </jats:list>","PeriodicalId":214,"journal":{"name":"New Phytologist","volume":"71 1","pages":""},"PeriodicalIF":8.3000,"publicationDate":"2024-11-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Patterns of presence–absence variation of NLRs across populations of Solanum chilense are clade‐dependent and mainly shaped by past demographic history\",\"authors\":\"Gustavo A. Silva‐Arias, Edeline Gagnon, Surya Hembrom, Alexander Fastner, Muhammad Ramzan Khan, Remco Stam, Aurélien Tellier\",\"doi\":\"10.1111/nph.20293\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Summary<jats:list list-type=\\\"bullet\\\"> <jats:list-item>Understanding the evolution of pathogen resistance genes (nucleotide‐binding site‐leucine‐rich repeats, NLRs) within a species requires a comprehensive examination of factors that affect gene loss and gain.</jats:list-item> <jats:list-item>We present a new reference genome of <jats:italic>Solanum chilense</jats:italic>, which leads to an increased number and more accurate annotation of NLRs. Using a target capture approach, we quantify the presence–absence variation (PAV) of NLR <jats:italic>loci</jats:italic> across 20 populations from different habitats. We build a rigorous pipeline to validate the identification of PAV of NLRs and then show that PAV is larger within populations than between populations, suggesting that maintenance of NLR diversity is linked to population dynamics.</jats:list-item> <jats:list-item>The amount of PAV appears not to be correlated with the NLR presence in gene clusters in the genome, but rather with the past demographic history of the species, with loss of NLRs in diverging (smaller) populations at the distribution edges. 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Patterns of presence–absence variation of NLRs across populations of Solanum chilense are clade‐dependent and mainly shaped by past demographic history
SummaryUnderstanding the evolution of pathogen resistance genes (nucleotide‐binding site‐leucine‐rich repeats, NLRs) within a species requires a comprehensive examination of factors that affect gene loss and gain.We present a new reference genome of Solanum chilense, which leads to an increased number and more accurate annotation of NLRs. Using a target capture approach, we quantify the presence–absence variation (PAV) of NLR loci across 20 populations from different habitats. We build a rigorous pipeline to validate the identification of PAV of NLRs and then show that PAV is larger within populations than between populations, suggesting that maintenance of NLR diversity is linked to population dynamics.The amount of PAV appears not to be correlated with the NLR presence in gene clusters in the genome, but rather with the past demographic history of the species, with loss of NLRs in diverging (smaller) populations at the distribution edges. Finally, using a redundancy analysis, we find limited evidence of PAV being linked to environmental gradients.Our results suggest that random processes (genetic drift and demography) and weak positive selection for local adaptation shape the evolution of NLRs at the single nucleotide polymorphism and PAV levels in an outcrossing plant with high nucleotide diversity.
期刊介绍:
New Phytologist is an international electronic journal published 24 times a year. It is owned by the New Phytologist Foundation, a non-profit-making charitable organization dedicated to promoting plant science. The journal publishes excellent, novel, rigorous, and timely research and scholarship in plant science and its applications. The articles cover topics in five sections: Physiology & Development, Environment, Interaction, Evolution, and Transformative Plant Biotechnology. These sections encompass intracellular processes, global environmental change, and encourage cross-disciplinary approaches. The journal recognizes the use of techniques from molecular and cell biology, functional genomics, modeling, and system-based approaches in plant science. Abstracting and Indexing Information for New Phytologist includes Academic Search, AgBiotech News & Information, Agroforestry Abstracts, Biochemistry & Biophysics Citation Index, Botanical Pesticides, CAB Abstracts®, Environment Index, Global Health, and Plant Breeding Abstracts, and others.