Genetic linkage maps of Populus nigra L. including AFLPs, SSRs, SNPs, and sex trait

Gaudet, Muriel; Jorge, Véronique; Paolucci, Isabella; Beritognolo, Isacco; Mugnozza, Giuseppe Scarascia; Sabatti, Maurizio

doi:10.1007/s11295-007-0085-1

Cited by 100 publications

(144 citation statements)

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“…This difference might be explained by balancing selection on chromosome III, whereas both balancing and divergent selection were detected on chromosome XIX. Indications for divergent selection in BayeScan analyses of both species (Table 4) accumulate especially in the chromosome part closer to the sex determination region of European species (Gaudet et al 2008;Yin et al 2008;Paolucci et al 2010;Pakull et al 2011;Tuskan et al 2012). These patterns support the hypothesis that the evolution of NBS-LRR genes on chromosome XIX is, directly or indirectly, linked to the evolution of sex determination.…”

Section: R-genes and Sex Determinationsupporting

confidence: 61%

“…This chromosomal region is not only particular regarding its genetic diversity but also regarding its genomic architecture. Despite high levels of synteny among Populus genomes, the location of the gender determination locus appears to be variable in position along chromosome XIX in different sections of the Populus genus (Gaudet et al 2008;Yin et al 2008;Pakull et al 2011;Kersten et al 2014). In P. alba and P. tremula, sex determination appears to have a centromeric localization rather than the peritelomeric localization described for Populus trichocarpa (Tuskan et al 2012).…”

Section: Introductionmentioning

confidence: 93%

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Patterns of genetic diversity and differentiation in resistance gene clusters of two hybridizing European Populus species

Caseys

Stölting

Barbará

et al. 2015

Tree Genetics & Genomes

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Resistance genes (R-genes) are essential for longlived organisms such as forest trees, which are exposed to diverse herbivores and pathogens. In short-lived model species, R-genes have been shown to be involved in species isolation. Here, we studied more than 400 trees from two natural hybrid zones of the European Populus species Populus alba and Populus tremula for microsatellite markers located in three R-gene clusters, including one cluster situated in the incipient sex chromosome region. The results indicate that all three R-gene clusters present extensive linkage disequilibrium (LD). Outlier tests suggest balancing selection as a potential driver of R-gene diversity, but divergent selection was also detected. Nucleotide-binding site leucine-rich repeat (NBS-LRR) type R-gene clusters exhibit low species differentiation and appear to be affected by shared selection pressures between species, recurrent interspecific gene flow, or both. Our results are consistent with a role for R-gene clusters in the evolution of chromosome XIX, recently put forward as an incipient sex chromosome in Populus.

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Section: R-genes and Sex Determinationsupporting

confidence: 61%

Section: Introductionmentioning

confidence: 93%

Patterns of genetic diversity and differentiation in resistance gene clusters of two hybridizing European Populus species

Caseys

Stölting

Barbará

et al. 2015

Tree Genetics & Genomes

View full text Add to dashboard Cite

show abstract

“…This reproductive habit in Populus, along with the ubiquitous vegetative reproduction via root suckering, air layering, and/or cladoptosis, evolved proximally to or simultaneously with the advent of this family 65 million years ago, as nearly all members of the Salicaceae family displays these habits (Karrenberg et al 2002;Eckenwalder 1996). Dioecy in Populus is strongly genetically controlled, and a region of the genome located on chromosome XIX appears to contain a gene (genes) that controls gender determination, though there are noted examples of gender reversion and hermaphroditic plants in most species (Rottenberg et al 2000;Markussen et al 2007;Gaudet et al 2008;Pakull et al 2009Pakull et al , 2011Paolucci et al 2010). The peritelomeric region on chromosome XIX in female Populus trichocarpa genotypes contains approximately 1 Mb of DNA that is not found in male genotypes and appears to have a region of suppressed and/or reduced recombination that extends 3-4 Mb beyond the hemizygous segment in females (Yin et al 2004a).…”

Section: Introductionmentioning

confidence: 99%

“…One generalized hypothesis is that sex chromosomes originate from autosomes, and dioecy almost certainly evolves from ancestral hermaphrodites that lacked sex chromosomes (Muller 1914;Liu et al 2004). Based on genetic mapping results, evidence of sex chromosomes has been reported in various species by Gaudet et al (2008), Yin et al (2008), Pakull et al (2009Pakull et al ( , 2011, and Paolucci et al (2010). Yin et al (2008) described genetic and genomic features in the peritelomeric region of chromosome XIX that suggested this region of the Populus genome is in the process of developing characteristics of a sex chromosome.…”

Section: Introductionmentioning

confidence: 99%

“…Yin et al (2008) described genetic and genomic features in the peritelomeric region of chromosome XIX that suggested this region of the Populus genome is in the process of developing characteristics of a sex chromosome. A provocative feature of chromosome XIX is the location of a gender determination locus, which maps to alternate positions on chromosome XIX, depending upon the Populus species (Gaudet et al 2008;Pakull et al 2009Pakull et al , 2011Yin et al 2008;Paolucci et al 2010) (Fig. 2), with a peritelomeric localization in members of the Aigeiros and Tacamahaca subgenera and a centromeric localization in Leuce.…”

Section: Introductionmentioning

confidence: 99%

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