Comparative Nucleotide Diversity Across North American and European Populus Species

Ismail, Mohamed; Soolanayakanahally, Raju; Ingvarsson, Pär K.; Guy, Robert D.; Jansson, Stefan; Silim, Salim N.; El‐Kassaby, Yousry A.

doi:10.1007/s00239-012-9504-5

Cited by 28 publications

(30 citation statements)

References 78 publications

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“…The rapid decay of LD in this population also means that high marker density will be required for association analysis to avoid missing possible significant markers or functional variations. However, the decline of LD with distance within PtoCesA3 extended over longer distances than the LD decline observed for candidate genes in several related species of Populus, where a rapid decay of LD occurs within a few hundred base pairs (Ingvarsson 2005(Ingvarsson , 2008Wegrzyn et al 2010;Ismail et al 2012). Previous studies conducted by Olson et al (2010) and Guerra et al (2013) reported that LD decayed over significantly longer distances in P. balsamifera and P. nigra genes.…”

Section: Nucleotide Diversity and Linkage Disequilibrium In Ptocesa3mentioning

confidence: 72%

Single nucleotide polymorphisms in a cellulose synthase gene (PtoCesA3) are associated with growth and wood properties in Populus tomentosa

Tian

et al. 2014

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In plants, the composition and organization of the cell wall determine cell shape, enable cell expansion, and affect the properties of woody tissues. Cellulose synthase (CesA) genes encode the enzymes involved in the synthesis of cellulose which is the major component of plant primary and secondary cell walls. Here, we isolated a full-length PtoCesA3 cDNA from the stem cambium tissue of Populus tomentosa. Tissue-specific expression profiling showed that PtoCesA3 is highly expressed during primary cell wall formation. Estimation of single nucleotide polymorphism (SNP) diversity and linkage disequilibrium (LD) revealed that PtoCesA3 harbors high SNP diversity (π(T) = 0.00995 and θ(w) = 0.0102) and low LD (r(2) ≥ 0.1, within 1,280 bp). Association analysis in a P. tomentosa association population (460 individuals) showed that seven SNPs (false discovery rate Q < 0.10) and five haplotypes (Q < 0.10) were significantly associated with growth and wood properties, explaining 4.09-7.02% of the phenotypic variance. All significant marker-trait associations were validated in at least one of the three smaller subsets (climatic regions) while five associations were repeated in the linkage population. Variation in RNA transcript abundance among genotypic classes of significant loci was also confirmed in the association or linkage populations. Identification of PtoCesA3 and examining its allelic polymorphisms using association studies open an avenue to understand the mechanism of cellulose synthesis in the primary cell wall and its effects on the properties of woody tissues.

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Section: Nucleotide Diversity and Linkage Disequilibrium In Ptocesa3mentioning

confidence: 72%

Single nucleotide polymorphisms in a cellulose synthase gene (PtoCesA3) are associated with growth and wood properties in Populus tomentosa

Tian

et al. 2014

Planta

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“…Much higher overall nucleotide diversity levels in a conifer were uncovered for P. taeda (π = 0.00398; [86]). Among the studied poplars, interestingly, the European species, P. tremula, showed the highest nucleotide diversity (π = 0.007 [87] or even π = 0.0111 [88], dependent on the surveyed genes), but differences in diversity were also consistent with its different and complex demographic history. However, nucleotide diversity is best interpreted on a gene-by-gene basis, as population history and selection affect these mutation rates more specifically [40,89].…”

Section: Forest Tree Population Diversitymentioning

confidence: 81%

Assessment of the Genetic Diversity in Forest Tree Populations Using Molecular Markers

2014

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Molecular markers have proven to be invaluable tools for assessing plants' genetic resources by improving our understanding with regards to the distribution and the extent of genetic variation within and among species. Recently developed marker technologies allow the uncovering of the extent of the genetic variation in an unprecedented way through increased coverage of the genome. Markers have diverse applications in plant sciences, but certain marker types, due to their inherent characteristics, have also shown their limitations. A combination of diverse marker types is usually recommended to provide an accurate assessment of the extent of intra-and inter-population genetic diversity of naturally distributed plant species on which proper conservation directives for species that are at risk of decline can be issued. Here, specifically, natural populations of forest trees are reviewed by summarizing published reports in terms of the status of genetic variation in the pure species. In general, for outbred forest tree species, the genetic diversity within populations is larger than among populations of the same species, indicative of a negligible local spatial structure. Additionally, as is the case for plants in general, the diversity at the phenotypic level is also much larger than at the marker level, as selectively neutral markers are commonly used to capture the extent of genetic variation. However, more and more, nucleotide diversity within candidate genes underlying adaptive traits are studied for signatures of selection at single sites. This adaptive genetic diversity constitutes important potential for future forest management and conservation purposes.

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“…Populus (Ismail et al, 2012), Pinus (González Martinez et al, 2006;Wachowiak et al, 2011) and Quercus (Derory et al, 2012).…”

Section: Resultsmentioning

confidence: 99%

Identification of single nucleotide polymorphisms (SNPs) at candidate genes involved in abiotic stress in two Prosopis species of hybrids

et al. 2014

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Aim of the study: Identify and compare SNPs on candidate genes related to abiotic stress in Prosopis chilensis, Prosopis flexuosa and interspecific hybrids Area of the study: Chaco árido, Argentina. Material and Methods:Fragments from 6 candidate genes were sequenced in 60 genotypes. DNA polymorphisms were analyzed.Main Results: The analysis revealed that the hybrids had the highest rate of polymorphism, followed by P. flexuosa and P. chilensis, the values found are comparable to other forest tree species.Research highlights: This approach will help to study genetic diversity variation on natural populations for assessing the effects of environmental changes.

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Comparative Nucleotide Diversity Across North American and European Populus Species

Cited by 28 publications

References 78 publications

Single nucleotide polymorphisms in a cellulose synthase gene (PtoCesA3) are associated with growth and wood properties in Populus tomentosa

Single nucleotide polymorphisms in a cellulose synthase gene (PtoCesA3) are associated with growth and wood properties in Populus tomentosa

Assessment of the Genetic Diversity in Forest Tree Populations Using Molecular Markers

Identification of single nucleotide polymorphisms (SNPs) at candidate genes involved in abiotic stress in two Prosopis species of hybrids

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