Phylogeny of<i>Populus</i>(Salicaceae) based on nucleotide sequences of chloroplast TRNT‐TRNF region and nuclear rDNA

Hamzeh, Mona; Dayanandan, Selvadurai

doi:10.3732/ajb.91.9.1398

Cited by 160 publications

(183 citation statements)

References 32 publications

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“…Ancestral polymorphism is an unlikely explanation for allele sharing at the weakly differentiated loci seen in Figure 2. These species diverged at least several million years ago (Stettler et al 1996), and P. alba and P. tremula are not even sister species in most molecular phylogenetic analyses of the genus (Hamzeh and Dayanandan 2004). Accordingly, allele frequency differentials between these taxa often reach values of 0.90 or higher (Table 2; Table S3).…”

Section: Resultsmentioning

confidence: 99%

Genomic Admixture Analysis in European Populus spp. Reveals Unexpected Patterns of Reproductive Isolation and Mating

et al. 2010

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Admixture between genetically divergent populations facilitates genomic studies of the mechanisms involved in adaptation, reproductive isolation, and speciation, including mapping of the loci involved in these phenomena. Little is known about how pre-and postzygotic barriers will affect the prospects of ''admixture mapping'' in wild species. We have studied 93 mapped genetic markers (microsatellites, indels, and sequence polymorphisms, $60,000 data points) to address this topic in hybrid zones of Populus alba and P. tremula, two widespread, ecologically important forest trees. Using genotype and linkage information and recently developed analytical tools we show that (1) reproductive isolation between these species is much stronger than previously assumed but this cannot prevent the introgression of neutral or advantageous alleles, (2) unexpected genotypic gaps exist between recombinant hybrids and their parental taxa, (3) these conspicuous genotypic patterns are due to assortative mating and strong postzygotic barriers, rather than recent population history. We discuss possible evolutionary trajectories of hybrid lineages between these species and outline strategies for admixture mapping in hybrid zones between highly divergent populations. Datasets such as this one are still rare in studies of natural hybrid zones but should soon become more common as high throughput genotyping and resequencing become feasible in nonmodel species.

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Section: Resultsmentioning

confidence: 99%

Genomic Admixture Analysis in European Populus spp. Reveals Unexpected Patterns of Reproductive Isolation and Mating

et al. 2010

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“…tibetica. Belonging to the Tacamahaca section, P. szechuanica is naturally distributed throughout the Tibet Plateau, growing in mountains at an altitude of 1100 À4600 m, over a wide range of regions in Gansu, Shaanxi, Sichuan, Xizang and Yunnan Provinces of China (Hamzeh and Dayanandan, 2004). The wide ecological adaptation of this species, along with its pronounced variation in leaf size and shape (Figure 1), makes this species ideal to study the genetic variation of leaf morphology using molecular markers.…”

Section: Resultsmentioning

confidence: 99%

“…southwestern China (Hamzeh and Dayanandan, 2004), providing an ideal model system to study the genetics of leaf morphology and its relationship with ecological adaptations. Interestingly, we detected a number of shape QTLs associated with microsatellite markers by shape mapping.…”

Section: Discussionmentioning

confidence: 99%

Mapping shape quantitative trait loci using a radius-centroid-contour model

Pang

et al. 2013

Heredity

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As the consequence of complex interactions between different parts of an organ, shape can be used as a predictor of structural-functional relationships implicated in changing environments. Despite such importance, however, it is no surprise that little is known about the genetic detail involved in shape variation, because no approach is currently available for mapping quantitative trait loci (QTLs) that control shape. Here, we address this problem by developing a statistical model that integrates the principle of shape analysis into a mixture-model-based likelihood formulated for QTL mapping. One state-of-theart approach for shape analysis is to identify and analyze the polar coordinates of anatomical landmarks on a shape measured in terms of radii from the centroid to the contour at regular intervals. A procrustes analysis is used to align shapes to filter out position, scale and rotation effects on shape variation. To the end, the accurate and quantitative representation of a shape is produced with aligned radius-centroid-contour (RCC) curves, that is, a function of radial angle at the centroid. The high dimensionality of the RCC data, crucial for a comprehensive description of the geometric feature of a shape, is reduced by principal component (PC) analysis, and the resulting PC axes are treated as phenotypic traits, allowing specific QTLs for global and local shape variability to be mapped, respectively. The usefulness and utilization of the new model for shape mapping in practice are validated by analyzing a mapping data collected from a natural population of poplar, Populus szechuanica var tibetica, and identifying several QTLs for leaf shape in this species. The model provides a powerful tool to compute which genes determine biological shape in plants, animals and humans.

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“…In contrast, the phytochromes in P. balsamifera (this study) show low nucleotide diversity and little evidence of positive selection (Table S4 and Figure 2), nor do phytochrome genes cosegregate with bud set QTL in Populus trichocarpa · P. deltoides mapping populations (Chen et al 2002;Rohde et al 2010). Although congenerics, P. balsamifera and P. tremula, are geographically isolated and estimated to have last shared a common ancestor 40 million years ago (Hamzeh and Dayanandan 2004); thus they have presumably migrated and adapted to northern latitude environments independently. The difference in selection on phenology genes suggests that despite showing convergent phenotypic clines in bud set with latitude, these two poplar species differ in the genetic basis of local adaptation.…”

Section: Common Targets Of Selection On Plant Phenology Genesmentioning

confidence: 99%

Local Selection Across a Latitudinal Gradient Shapes Nucleotide Diversity in Balsam Poplar, Populus balsamifera L

et al. 2011

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Molecular studies of adaptive evolution often focus on detecting selective sweeps driven by positive selection on a specieswide scale; however, much adaptation is local, particularly of ecologically important traits. Here, we look for evidence of range-wide and local adaptation at candidate genes for adaptive phenology in balsam poplar, Populus balsamifera, a widespread forest tree whose range extends across environmental gradients of photoperiod and growing season length. We examined nucleotide diversity of 27 poplar homologs of the flowering-time network-a group of genes that control plant developmental phenology through interactions with environmental cues such as photoperiod and temperature. Only one gene, ZTL2, showed evidence of reduced diversity and an excess of fixed replacement sites, consistent with a species-wide selective sweep. Two other genes, LFY and FRI, harbored high levels of nucleotide diversity and exhibited elevated differentiation between northern and southern accessions, suggesting local adaptation along a latitudinal gradient. Interestingly, FRI has also been identified as a target of local selection between northern and southern accessions of Arabidopsis thaliana, indicating that this gene may be commonly involved in ecological adaptation in distantly related species. Our findings suggest an important role for local selection shaping molecular diversity and reveal limitations of inferring molecular adaptation from analyses designed only to detect species-wide selective sweeps.

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Phylogeny ofPopulus(Salicaceae) based on nucleotide sequences of chloroplast TRNT‐TRNF region and nuclear rDNA

Cited by 160 publications

References 32 publications

Genomic Admixture Analysis in European Populus spp. Reveals Unexpected Patterns of Reproductive Isolation and Mating

Genomic Admixture Analysis in European Populus spp. Reveals Unexpected Patterns of Reproductive Isolation and Mating

Mapping shape quantitative trait loci using a radius-centroid-contour model

Local Selection Across a Latitudinal Gradient Shapes Nucleotide Diversity in Balsam Poplar, Populus balsamifera L

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