Your search keyword '"Heinze B"' showing total 7 results

1. Barrier to gene flow between two ecologically divergent Populus species, P. alba (white poplar) and P. tremula (European aspen): the role of ecology and life history in gene introgression

Author

LEXER, C., primary, FAY, M. F., additional, JOSEPH, J. A., additional, NICA, M.-S., additional, and HEINZE, B., additional

Published

2005

2. Barrier to gene flow between two ecologically divergentPopulusspecies,P. alba(white poplar) andP. tremula(European aspen): the role of ecology and life history in gene introgression.

Author

Lexer, C., Fray, M.F., Joseph, J.A., Nica, S., and Heinze, B.

Subjects

POPLARS, POPULUS alba, EUROPEAN aspen, PLANT genetics, MICROSATELLITE repeats, DNA

Abstract

The renewed interest in the use of hybrid zones for studying speciation calls for the identification and study of hybrid zones across a wide range of organisms, especially in long-lived taxa for which it is often difficult to generate interpopulation variation through controlled crosses. Here, we report on the extent and direction of introgression between two members of the‘model tree’ genusPopulus:Populus alba(white poplar) andPopulus tremula(European aspen), across a large zone of sympatry located in the Danube valley. We genotyped 93 hybrid morphotypes and samples from four parental reference populations from within and outside the zone of sympatry for a genome-wide set of 20 nuclear microsatellites and eight plastid DNA restriction site polymorphisms. Our results indicate that introgression occurs preferentially fromP. tremulatoP. albaviaP. tremulapollen. This unidirectional pattern is facilitated by high levels of pollen vs. seed dispersal inP. tremula(pollen/seed flow = 23.9) and by great ecological opportunity in the lowland floodplain forest in proximity toP. albaseed parents, which maintains gene flow in the direction ofP. albadespite smaller effective population sizes (N e) in this species (P. alba N e c.500–550;P. tremula N e c.550–700). Our results indicate that hybrid zones will be valuable tools for studying the genetic architecture of the barrier to gene flow between these two ecologically divergentPopulusspecies. [ABSTRACT FROM AUTHOR]

Published

2005

3. Selection against recombinant hybrids maintains reproductive isolation in hybridizing Populus species despite F1 fertility and recurrent gene flow.

Author

Christe C, Stölting KN, Bresadola L, Fussi B, Heinze B, Wegmann D, and Lexer C

Subjects

DNA, Chloroplast genetics, DNA, Plant genetics, Fertility, Genetics, Population, Genome, Plant, Genotype, Haplotypes, Linkage Disequilibrium, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Gene Flow, Hybridization, Genetic, Populus genetics, Reproductive Isolation, Selection, Genetic

Abstract

Natural hybrid zones have proven to be precious tools for understanding the origin and maintenance of reproductive isolation (RI) and therefore species. Most available genomic studies of hybrid zones using whole- or partial-genome resequencing approaches have focused on comparisons of the parental source populations involved in genome admixture, rather than exploring fine-scale patterns of chromosomal ancestry across the full admixture gradient present between hybridizing species. We have studied three well-known European 'replicate' hybrid zones of Populus alba and P. tremula, two widespread, ecologically divergent forest trees, using up to 432 505 single-nucleotide polymorphisms (SNPs) from restriction site-associated DNA (RAD) sequencing. Estimates of fine-scale chromosomal ancestry, genomic divergence and differentiation across all 19 poplar chromosomes revealed strikingly contrasting results, including an unexpected preponderance of F1 hybrids in the centre of genomic clines on the one hand, and genomically localized, spatially variable shared variants consistent with ancient introgression between the parental species on the other. Genetic ancestry had a significant effect on survivorship of hybrid seedlings in a common garden trial, pointing to selection against early-generation recombinants. Our results indicate a role for selection against recombinant genotypes in maintaining RI in the face of apparent F1 fertility, consistent with the intragenomic 'coadaptation' model of barriers to introgression upon secondary contact. Whole-genome resequencing of hybridizing populations will clarify the roles of specific genetic pathways in RI between these model forest trees and may reveal which loci are affected most strongly by its cyclic breakdown., (© 2016 John Wiley & Sons Ltd.)

Published

2016

4. Recombinant hybrids retain heterozygosity at many loci: new insights into the genomics of reproductive isolation in Populus.

Author

Lindtke D, Buerkle CA, Barbará T, Heinze B, Castiglione S, Bartha D, and Lexer C

Subjects

Alleles, Austria, Bayes Theorem, DNA, Plant genetics, Epistasis, Genetic, Genetics, Population, Genome, Plant, Genomics, Genotype, Hungary, Italy, Microsatellite Repeats, Sequence Analysis, DNA, Heterozygote, Hybridization, Genetic, Populus genetics, Reproductive Isolation

Abstract

The maintenance of species barriers in the face of gene flow is often thought to result from strong selection against intermediate genotypes, thereby preserving genetic differentiation. Most speciation genomic studies thus aim to identify exceptionally divergent loci between populations, but divergence will be affected by many processes other than reproductive isolation (RI) and speciation. Through genomic studies of recombinant hybrids sampled in the wild, genetic variation associated with RI can be observed in situ, because selection against incompatible genotypes will leave detectable patterns of variation in the hybrid genomes. To better understand the mechanisms directly involved in RI, we investigated three natural 'replicate' hybrid zones between two divergent Populus species via locus-specific patterns of ancestry across recombinant hybrid genomes. As expected, genomic patterns in hybrids and their parental species were consistent with the presence of underdominant selection at several genomic regions. Surprisingly, many loci displayed greatly increased between-species heterozygosity in recombinant hybrids despite striking genetic differentiation between the parental genomes, the opposite of what would be expected with selection against intermediate genotypes. Only a limited, reproducible set of genotypic combinations was present in hybrid genomes across localities. In the absence of clearly delimited 'hybrid habitats', our results suggest that complex epistatic interactions within genomes play an important role in advanced stages of RI between these ecologically divergent forest trees. This calls for more genomic studies that test for unusual patterns of genomic ancestry in hybridizing species., (© 2012 Blackwell Publishing Ltd.)

Published

2012

5. Towards a quantitative description of landscape, demography and flowering phenology effects on realized hybridization potential.

Author

Heinze B

Subjects

Animals, Australia, Bees physiology, Ecosystem, Eucalyptus physiology, Population Dynamics, Species Specificity, Weather, Flowers growth & development, Flowers physiology, Hybridization, Genetic

Abstract

In chemistry, the law of mass action describes how variations in the concentrations of chemical compounds lead to different chemical reaction outcomes. Does the extent of hybridization, or more particularly, the formation of hybrid offspring, likewise depend on the local abundance of pollen from compatible species in systems as complex as tall trees which depend on (insect) pollinators? In this issue of Molecular Ecology, Field et al. (2011a) present a study involving two ecologically divergent eucalypt species. By comparing several contrasting settings with different local densities and geographical arrangements of adult trees and by studying parentage in progeny arrays, they show that on top of pre-mating barriers like flowering time differences, local demography and varying scales of pollen dispersal, which in themselves depend on pollinator behaviour in reaction to flowering abundance, all interact in a somewhat predictable way. In other words, these factors can explain some of the variation in hybrid formation observed. In this way, the study introduces important progress towards a quantitative description of hybridization potential. Therefore, let me tell you about the birds and the bees and the flowers and the trees (Newman 1964).

Published

2011

6. Admixture facilitates adaptation from standing variation in the European aspen (Populus tremula L.), a widespread forest tree.

Author

DE Carvalho D, Ingvarsson PK, Joseph J, Suter L, Sedivy C, Macaya-Sanz D, Cottrell J, Heinze B, Schanzer I, and Lexer C

Subjects

DNA, Plant genetics, Genetic Markers, Genetic Variation, Genotype, Microsatellite Repeats, Phenotype, Scandinavian and Nordic Countries, Selection, Genetic, Sequence Analysis, DNA, Adaptation, Biological genetics, Evolution, Molecular, Genetics, Population, Populus genetics

Abstract

Adaptation to new environments can start from new mutations or from standing variation already present in natural populations. Whether admixture constrains or facilitates adaptation from standing variation is largely unknown, especially in ecological keystone or foundation species. We examined patterns of neutral and adaptive population divergence in Populus tremula L., a widespread forest tree, using mapped molecular genetic markers. We detected the genetic signature of postglacial admixture between a Western and an Eastern lineage of P. tremula in Scandinavia, an area suspected to represent a zone of postglacial contact for many species of animals and plants. Stringent divergence-based neutrality tests provided clear indications for locally varying selection at the European scale. Six of 12 polymorphisms under selection were located less than 1 kb away from the nearest gene predicted by the Populus trichocarpa genome sequence. Few of these loci exhibited a signature of 'selective sweeps' in diversity-based tests, which is to be expected if adaptation occurs primarily from standing variation. In Scandinavia, admixture explained genomic patterns of ancestry and the nature of clinal variation and strength of selection for bud set, a phenological trait of great adaptive significance in temperate trees, measured in a common garden trial. Our data provide a hitherto missing direct link between past range shifts because of climatic oscillations, and levels of standing variation currently available for selection and adaptation in a terrestrial foundation species.

Published

2010

7. Somatic mutations as a useful tool for studying clonal dynamics in trees.

Author

Heinze B and Fussi B

Subjects

Genetic Variation, Models, Genetic, Trees genetics, Genetics, Population, Microsatellite Repeats, Populus genetics

Abstract

The seemingly eternal cycles of clonal growth in many tree species, with members of Populus (aspen, poplars, cottonwoods and the like) featuring most prominently, provoke a number of questions on the interface between ecology, genetics and forestry. In this issue, two groups present their approaches to clonal dynamics (Ally et al. 2008 and Mock et al. 2008), using microsatellite (or simple sequence repeat, SSR) variation in P. tremuloides. Ally et al. developed and applied a model for using microsatellites to estimate clone age and infer other community characteristics. Mock et al. used fewer microsatellites but in more individuals, to examine clone size and distribution across the landscape.

Published

2008