Your search keyword '"outlier SNPs"' showing total 10 results

1. Limited genetic diversity found among genotypes of the Entada landrace (Ensete ventricosum, (Welw.) Chessman) from Ethiopia.

Author

Haile, Alye Tefera, Kovi, Mallikarjuna Rao, Johnsen, Sylvia Sagen, Hvoslef-Eide, Trine, Tesfaye, Bizuayehu, and Rognli, Odd Arne

Subjects

MOLECULAR evolution, GENETIC variation, MOLECULAR cloning, GENOTYPES, SINGLE nucleotide polymorphisms

Abstract

The Entada landrace of enset (Ensete ventricosum (Welw.) Chessman) is probably the most unique indigenous crop in Ethiopia, being maintained and utilized by the Ari people in the South of Ethiopia. Here we describe genetic diversity, selection signatures and relationship of Entada with cultivated and wild enset using 117 Entada genotypes collected from three Entada growing regions in Ethiopia (Sidama, South and North Ari). A total number of 1,617 high-quality SNP markers, obtained from ddRAD-sequences, were used for the diversity studies. Phylogenetic analysis detected a clear distinction between cultivated enset, Entada and wild enset with Entada forming a completely separated clade. However, extremely short branch lengths among the Entada genotypes indicate very little molecular evolution in the Entada lineages. Observed and expected heterozygosities were high, 0.73 and 0.50, respectively. Overall, our results strongly indicate that the Entada genotypes we have studied originated from one or a few clonal lineages that have been propagated and spread among farmers as clones. Prolonged clonal propagation of heterozygous genotypes from a single or few founding lineages has led to populations with very little or no diversity between genotypes, and high heterozygosity within genotypes. Signatures of directional selection were identified at eight loci based on an FST outlier analysis. Four candidate genes detected are involved in axillary shoot growth and might be involved in controlling natural sucker formation in Entada. [ABSTRACT FROM AUTHOR]

Published

2024

2. Limited genetic diversity found among genotypes of the Entada landrace (Ensete ventricosum, (Welw.) Chessman) from Ethiopia

Author

Alye Tefera Haile, Mallikarjuna Rao Kovi, Sylvia Sagen Johnsen, Trine Hvoslef-Eide, Bizuayehu Tesfaye, and Odd Arne Rognli

Subjects

enset, SNP markers, ddRAD, outlier SNPs, genetic diversity, Plant culture, SB1-1110

Abstract

The Entada landrace of enset (Ensete ventricosum (Welw.) Chessman) is probably the most unique indigenous crop in Ethiopia, being maintained and utilized by the Ari people in the South of Ethiopia. Here we describe genetic diversity, selection signatures and relationship of Entada with cultivated and wild enset using 117 Entada genotypes collected from three Entada growing regions in Ethiopia (Sidama, South and North Ari). A total number of 1,617 high-quality SNP markers, obtained from ddRAD-sequences, were used for the diversity studies. Phylogenetic analysis detected a clear distinction between cultivated enset, Entada and wild enset with Entada forming a completely separated clade. However, extremely short branch lengths among the Entada genotypes indicate very little molecular evolution in the Entada lineages. Observed and expected heterozygosities were high, 0.73 and 0.50, respectively. Overall, our results strongly indicate that the Entada genotypes we have studied originated from one or a few clonal lineages that have been propagated and spread among farmers as clones. Prolonged clonal propagation of heterozygous genotypes from a single or few founding lineages has led to populations with very little or no diversity between genotypes, and high heterozygosity within genotypes. Signatures of directional selection were identified at eight loci based on an FST outlier analysis. Four candidate genes detected are involved in axillary shoot growth and might be involved in controlling natural sucker formation in Entada.

Published

2024

3. High genomic diversity and candidate genes under selection associated with range expansion in eastern coyote (Canis latrans) populations.

Author

Heppenheimer, Elizabeth, Brzeski, Kristin E., Hinton, Joseph W., Patterson, Brent R., Rutledge, Linda Y., DeCandia, Alexandra L., Wheeldon, Tyler, Fain, Steven R., Hohenlohe, Paul A., Kays, Roland, White, Bradley N., Chamberlain, Michael J., and vonHoldt, Bridgett M.

Subjects

*COYOTE, *MAMMAL genetics, *HABITUATION (Neuropsychology), *SPECIES diversity, *NUCLEOTIDE sequencing

Abstract

Range expansion is a widespread biological process, with well‐described theoretical expectations associated with the colonization of novel ranges. However, comparatively few empirical studies address the genomic outcomes accompanying the genome‐wide consequences associated with the range expansion process, particularly in recent or ongoing expansions. Here, we assess two recent and distinct eastward expansion fronts of a highly mobile carnivore, the coyote (Canis latrans), to investigate patterns of genomic diversity and identify variants that may have been under selection during range expansion. Using a restriction‐associated DNA sequencing (RADseq), we genotyped 394 coyotes at 22,935 SNPs and found that overall population structure corresponded to their 19th century historical range and two distinct populations that expanded during the 20th century. Counter to theoretical expectations for populations to bottleneck during range expansions, we observed minimal evidence for decreased genomic diversity across coyotes sampled along either expansion front, which is likely due to hybridization with other Canis species. Furthermore, we identified 12 SNPs, located either within genes or putative regulatory regions, that were consistently associated with range expansion. Of these 12 genes, three (CACNA1C, ALK, and EPHA6) have putative functions related to dispersal, including habituation to novel environments and spatial learning, consistent with the expectations for traits under selection during range expansion. Although coyote colonization of eastern North America is well‐publicized, this study provides novel insights by identifying genes associated with dispersal capabilities in coyotes on the two eastern expansion fronts. Here, we evaluate two recent and distinct eastward expansion fronts of a highly mobile carnivore, the coyote (Canis latrans), to investigate patterns of genomic diversity and identify variants that may have been under selection during range expansion. Counter to theoretical expectations for populations to bottleneck during range expansions, we observed minimal evidence for decreased genomic diversity across coyotes sampled along either expansion front. Furthermore, we identified 12 SNPs, located either within genes or regulatory regions, that were consistently associated with range expansion, some of which have functions putatively associated with dispersal behavior. [ABSTRACT FROM AUTHOR]

Published

2018

4. Outlier analyses to test for local adaptation to breeding grounds in a migratory arctic seabird.

Author

Tigano, Anna, Shultz, Allison J., Edwards, Scott V., Robertson, Gregory J., and Friesen, Vicki L.

Subjects

*SEA bird behavior, *BIRD adaptation, *BIRDS, *GENETICS, *BIRD populations, *BIRD breeding, *SINGLE nucleotide polymorphisms, *MIGRATORY birds, *OUTLIER detection

Abstract

Investigating the extent (or the existence) of local adaptation is crucial to understanding how populations adapt. When experiments or fitness measurements are difficult or impossible to perform in natural populations, genomic techniques allow us to investigate local adaptation through the comparison of allele frequencies and outlier loci along environmental clines. The thick-billed murre ( Uria lomvia) is a highly philopatric colonial arctic seabird that occupies a significant environmental gradient, shows marked phenotypic differences among colonies, and has large effective population sizes. To test whether thick-billed murres from five colonies along the eastern Canadian Arctic coast show genomic signatures of local adaptation to their breeding grounds, we analyzed geographic variation in genome-wide markers mapped to a newly assembled thick-billed murre reference genome. We used outlier analyses to detect loci putatively under selection, and clustering analyses to investigate patterns of differentiation based on 2220 genomewide single nucleotide polymorphisms ( SNPs) and 137 outlier SNPs. We found no evidence of population structure among colonies using all loci but found population structure based on outliers only, where birds from the two northernmost colonies (Minarets and Prince Leopold) grouped with birds from the southernmost colony (Gannet), and birds from Coats and Akpatok were distinct from all other colonies. Although results from our analyses did not support local adaptation along the latitudinal cline of breeding colonies, outlier loci grouped birds from different colonies according to their non-breeding distributions, suggesting that outliers may be informative about adaptation and/or demographic connectivity associated with their migration patterns or nonbreeding grounds. [ABSTRACT FROM AUTHOR]

Published

2017

5. Population structure, genetic variation and linkage disequilibrium in perennial ryegrass populations divergently selected for freezing tolerance

Author

Mallikarjuna Rao eKovi, Siri eFjellheim, Simen R Sandve, Arild eLarsen, Heidi eRudi, Torben eAsp, Matthew Peter Kent, and Odd Arne eRognli

Subjects

Linkage Disequilibrium, Lolium perenne, genetic diversity, population structure, freezing tolerance, outlier SNPs, Plant culture, SB1-1110

Abstract

Low temperature is one of the abiotic stresses seriously affecting the growth of perennial ryegrass (Lolium perenne L. Understanding the genetic control of freezing tolerance would aid in the development of cultivars of perennial ryegrass with improved adaptation to frost. A total number of 80 individuals (24 of High frost [HF]; 29 of Low frost [LF] and 27 of Unselected [US]) from the second generation of the two divergently selected populations and an unselected control population were genotyped using 278 genome-wide SNPs derived from Lolium perenne L. transcriptome sequence. Our studies showed that the HF and LF populations are very divergent after selection for freezing tolerance, whereas the HF and US populations are more similar. Linkage disequilibrium (LD) decay varied across the seven chromosomes and the conspicuous pattern of LD between the HF and LF population confirmed their divergence in freezing tolerance. Furthermore, two Fst outlier methods; finite island model (fdist) by LOSITAN and hierarchical structure model using ARLEQUIN detected six loci under directional selection. These outlier loci are most probably linked to genes involved in freezing tolerance, cold adaptation and abiotic stress and might be the potential marker resources for breeding perennial ryegrass cultivars with improved freezing tolerance.

Published

2015

6. High genomic diversity and candidate genes under selection associated with range expansion in eastern coyote (Canis latrans) populations

Author

Brent R. Patterson, Tyler Wheeldon, Joseph W. Hinton, Roland Kays, Paul A. Hohenlohe, Bridgett M. vonHoldt, Michael J. Chamberlain, Alexandra L. DeCandia, Steven R. Fain, Linda Y. Rutledge, Elizabeth Heppenheimer, Bradley N. White, and Kristin E. Brzeski

Subjects

0106 biological sciences, 0301 basic medicine, Candidate gene, Range (biology), outlier SNPs, 010603 evolutionary biology, 01 natural sciences, DNA sequencing, 03 medical and health sciences, Colonization, Carnivore, range expansion, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Original Research, Ecology, biology, dispersal behavior, RADseq, 15. Life on land, biology.organism_classification, colonization, 030104 developmental biology, Canis, Evolutionary biology, Eastern coyote, Biological dispersal

Abstract

Range expansion is a widespread biological process, with well‐described theoretical expectations associated with the colonization of novel ranges. However, comparatively few empirical studies address the genomic outcomes accompanying the genome‐wide consequences associated with the range expansion process, particularly in recent or ongoing expansions. Here, we assess two recent and distinct eastward expansion fronts of a highly mobile carnivore, the coyote (Canis latrans), to investigate patterns of genomic diversity and identify variants that may have been under selection during range expansion. Using a restriction‐associated DNA sequencing (RADseq), we genotyped 394 coyotes at 22,935 SNPs and found that overall population structure corresponded to their 19th century historical range and two distinct populations that expanded during the 20th century. Counter to theoretical expectations for populations to bottleneck during range expansions, we observed minimal evidence for decreased genomic diversity across coyotes sampled along either expansion front, which is likely due to hybridization with other Canis species. Furthermore, we identified 12 SNPs, located either within genes or putative regulatory regions, that were consistently associated with range expansion. Of these 12 genes, three (CACNA1C, ALK, and EPHA6) have putative functions related to dispersal, including habituation to novel environments and spatial learning, consistent with the expectations for traits under selection during range expansion. Although coyote colonization of eastern North America is well‐publicized, this study provides novel insights by identifying genes associated with dispersal capabilities in coyotes on the two eastern expansion fronts.

Published

2018

7. Population Structure, Genetic Variation, and Linkage Disequilibrium in Perennial Ryegrass Populations Divergently Selected for Freezing Tolerance.

Author

Kovi, Mallikarjuna Rao, Fjellheim, Siri, Sandve, Simen R., Larsen, Arild, Rudi, Heidi, Asp, Torben, Kent, Matthew Peter, and Rognli, Odd Arne

Subjects

RYEGRASSES, LOLIUM perenne genetics, LINKAGE disequilibrium

Abstract

Low temperature is one of the abiotic stresses seriously affecting the growth of perennial ryegrass (Lolium perenne L.), and freezing tolerance is a complex trait of major agronomical importance in northern and central Europe. Understanding the genetic control of freezing tolerance would aid in the development of cultivars of perennial ryegrass with improved adaptation to frost. The plant material investigated in this study was an experimental synthetic population derived from pair-crosses among five European perennial ryegrass genotypes, representing adaptations to a range of climatic conditions across Europe. A total number of 80 individuals (24 of High frost [HF]; 29 of Low frost [LF], and 27 of Unselected [US]) from the second generation of the two divergently selected populations and an unselected (US) control population were genotyped using 278 genome-wide SNPs derived from perennial ryegrass transcriptome sequences. Our studies investigated the genetic diversity among the three experimental populations by analysis of molecular variance and population structure, and determined that the HF and LF populations are very divergent after selection for freezing tolerance, whereas the HF and US populations are more similar. Linkage disequilibrium (LD) decay varied across the seven chromosomes and the conspicuous pattern of LD between the HF and LF population confirmed their divergence in freezing tolerance. Furthermore, two Fst outlier methods; finite island model (fdist) by LOSITAN and hierarchical structure model using ARLEQUIN, both detected six loci under directional selection. These outlier loci are most probably linked to genes involved in freezing tolerance, cold adaptation, and abiotic stress. These six candidate loci under directional selection for freezing tolerance might be potential marker resources for breeding perennial ryegrass cultivars with improved freezing tolerance. [ABSTRACT FROM AUTHOR]

Published

2015

8. Neutral and Selective Processes Drive Population Differentiation for Iris hexagona.

Author

Hamlin, Jennafer A. P. and Arnold, Michael L.

Subjects

*GENE flow, *PHENOTYPES, *GENOTYPES, *HEXAGONIA, *POPULATION differentiation, *POPULATION biology

Abstract

Gene flow among widespread populations can be reduced by geographical distance or by divergent selection resulting from local adaptation. In this study, we tested for the divergence of phenotypes and genotypes among 8 populations of Iris hexagona. Using a genotyping-by-sequencing approach, we generated a panel of 750 single nucleotide polymorphisms (SNPs) and used population genetic analyses to determine what may affect patterns of divergence across I. hexagona populations. Specifically, genetic differentiation was compared between populations at neutral and nonneutral SNPs and detected significant differences between the 2 types of markers. We then asked whether loci with the strongest degree of population genetic differentiation were also the loci with the strongest association to morphology or climate differences, allowing us to test if pollinators or climate drive population differentiation or some combination of both. We found 2 markers that were associated with morphology and 1 marker associated with 2 of the environmental variables, which were also identified in the outlier analysis. We then show that the SNPs putatively under selection were positively correlated with both geographic distance and phenotypic distance, albeit weakly to phenotypic distance. Moreover, neutral SNPs were only correlated with geographic distance and thus isolation-by-distance was observed for neutral SNPs. Our data suggest that both deterministic and neutral processes have contributed to the evolutionary trajectory of I. hexagona populations. [ABSTRACT FROM AUTHOR]

Published

2015

9. Outlier SNP markers reveal fine-scale genetic structuring across European hake populations ( Merluccius merluccius).

Author

Milano, Ilaria, Babbucci, Massimiliano, Cariani, Alessia, Atanassova, Miroslava, Bekkevold, Dorte, Carvalho, Gary R., Espiñeira, Montserrat, Fiorentino, Fabio, Garofalo, Germana, Geffen, Audrey J., Hansen, Jakob. H., Helyar, Sarah J., Nielsen, Einar E., Ogden, Rob, Patarnello, Tomaso, Stagioni, Marco, Tinti, Fausto, and Bargelloni, Luca

Subjects

*SINGLE nucleotide polymorphisms, *BIOMARKERS, *GENETIC markers, *EUROPEAN hake, *POPULATION biology, *MARINE fishes

Abstract

Shallow population structure is generally reported for most marine fish and explained as a consequence of high dispersal, connectivity and large population size. Targeted gene analyses and more recently genome-wide studies have challenged such view, suggesting that adaptive divergence might occur even when neutral markers provide genetic homogeneity across populations. Here, 381 SNPs located in transcribed regions were used to assess large- and fine-scale population structure in the European hake ( Merluccius merluccius), a widely distributed demersal species of high priority for the European fishery. Analysis of 850 individuals from 19 locations across the entire distribution range showed evidence for several outlier loci, with significantly higher resolving power. While 299 putatively neutral SNPs confirmed the genetic break between basins ( FCT = 0.016) and weak differentiation within basins, outlier loci revealed a dramatic divergence between Atlantic and Mediterranean populations ( FCT range 0.275-0.705) and fine-scale significant population structure. Outlier loci separated North Sea and Northern Portugal populations from all other Atlantic samples and revealed a strong differentiation among Western, Central and Eastern Mediterranean geographical samples. Significant correlation of allele frequencies at outlier loci with seawater surface temperature and salinity supported the hypothesis that populations might be adapted to local conditions. Such evidence highlights the importance of integrating information from neutral and adaptive evolutionary patterns towards a better assessment of genetic diversity. Accordingly, the generated outlier SNP data could be used for tackling illegal practices in hake fishing and commercialization as well as to develop explicit spatial models for defining management units and stock boundaries. [ABSTRACT FROM AUTHOR]

Published

2014

10. Outlier analyses to test for local adaptation to breeding grounds in a migratory arctic seabird

Author

Vicki L. Friesen, Anna Tigano, Gregory J. Robertson, Allison J. Shultz, and Scott V. Edwards

Subjects

0301 basic medicine, population genomics, outlier SNPs, Population genomics, 03 medical and health sciences, Arctic, Effective population size, biology.animal, Uria lomvia, Ecology, Evolution, Behavior and Systematics, Original Research, Nature and Landscape Conservation, Local adaptation, Ecology, biology, thick‐billed murre, RADseq, Cline (biology), 15. Life on land, biology.organism_classification, 030104 developmental biology, Evolutionary biology, genome assembly, Philopatry, Seabird

Abstract

Investigating the extent (or the existence) of local adaptation is crucial to understanding how populations adapt. When experiments or fitness measurements are difficult or impossible to perform in natural populations, genomic techniques allow us to investigate local adaptation through the comparison of allele frequencies and outlier loci along environmental clines. The thick‐billed murre (Uria lomvia) is a highly philopatric colonial arctic seabird that occupies a significant environmental gradient, shows marked phenotypic differences among colonies, and has large effective population sizes. To test whether thick‐billed murres from five colonies along the eastern Canadian Arctic coast show genomic signatures of local adaptation to their breeding grounds, we analyzed geographic variation in genome‐wide markers mapped to a newly assembled thick‐billed murre reference genome. We used outlier analyses to detect loci putatively under selection, and clustering analyses to investigate patterns of differentiation based on 2220 genomewide single nucleotide polymorphisms (SNPs) and 137 outlier SNPs. We found no evidence of population structure among colonies using all loci but found population structure based on outliers only, where birds from the two northernmost colonies (Minarets and Prince Leopold) grouped with birds from the southernmost colony (Gannet), and birds from Coats and Akpatok were distinct from all other colonies. Although results from our analyses did not support local adaptation along the latitudinal cline of breeding colonies, outlier loci grouped birds from different colonies according to their non‐breeding distributions, suggesting that outliers may be informative about adaptation and/or demographic connectivity associated with their migration patterns or nonbreeding grounds.

Published

2017