Genome Evolution in Plants

Marchant, D. Blaine; Soltis, Douglas E.; Soltis, Pamela S.

doi:10.1002/9780470015902.a0026814

Cited by 7 publications

(3 citation statements)

References 80 publications

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“…The genome sequence is the basis for a chromosome structure studying, a distribution of repetitive and coding sequences, and genes identification and annotation (Bragina et al, 2019). The different species genomes information allows a comparative phylogenetic analysis to study relationships among species, their origins, and evolutionary features (Marchant et al, 2016;Wendel et al, 2016). In agricultural plants, all these allows to assess the impact of a genetic variability on a gene function, to identify the genes responsible for the most valuable traits in crops (Schnable et al, 2009;Wing et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Crop pangenomes

2021

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Progress in genome sequencing, assembly and analysis allows for a deeper study of agricultural plants’ chromosome structures, gene identif ication and annotation. The published genomes of agricultural plants proved to be a valuable tool for studing gene functions and for marker-assisted and genomic selection. However, large structural genome changes, including gene copy number variations (CNVs) and gene presence/absence variations (PAVs), prevail in crops. These genomic variations play an important role in the functional set of genes and the gene composition in individuals of the same species and provide the genetic determination of the agronomically important crops properties. A high degree of genomic variation observed indicates that single reference genomes do not represent the diversity within a species, leading to the pangenome concept. The pangenome represents information about all genes in a taxon: those that are common to all taxon members and those that are variable and are partially or completely specif ic for particular individuals. Pangenome sequencing and analysis technologies provide a large-scale study of genomic variation and resources for an evolutionary research, functional genomics and crop breeding. This review provides an analysis of agricultural plants’ pangenome studies. Pangenome structural features, methods and programs for bioinformatic analysis of pangenomic data are described.

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Section: Introductionmentioning

confidence: 99%

Crop pangenomes

2021

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“…pairs/groups of species used to estimate crossability index) were available for regressions on chromosome number, 99 samples for median Ks, and 31 samples for paleolog fraction. To account for potentially different patterns of diploidization in angiosperms and other plant clades [18], we further divided the dataset into 'angiosperms' and 'non-angiosperms. '…”

Section: Taxon Sampling and Data Acquisitionmentioning

confidence: 99%

Post-zygotic reproductive isolation is not correlated with chromosome number in plants

Finch,

Yang,

Barker

2024

Preprint

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The evolution of chromosome numbers is an important but not fully understood aspect of eukaryotic evolution. Although we understand the types of karyotypic changes that can lead to chromosome gain and loss, we still do not understand why chromosome numbers in many plants and animals have an average ofn= 9. A recent hypothesis proposed that chromosome number reduction following whole genome duplication (WGD) in angiosperms is driven by an interaction between chromosome number and the strength of reproductive isolation among populations. Chromosome number is expected to determine the maximum number of independently assorting Bateson-Dobzhansky-Muller incompatibilities (BDMIs). Selection against restricted gene flow among populations would result in selection for reduced chromosome number. Here we test for an interaction between chromosome number and post-zygotic reproductive isolation across a broad sample of land plants. We additionally tested for the indirect effects of WGD in generating post-zygotic reproductive isolation. Such an effect is expected if reproductive isolation is driven largely by reciprocal gene loss of WGD-derived paralogs. We found no correlation between post-zygotic reproductive isolation and chromosome number, WGD age, or degree of fractionation, suggesting that the accumulation of genic incompatibilities is likely not a major driver of post-WGD chromosome number reduction.

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“…Polyploidy is a common phenomenon across numerous eukaryotic taxa (Soltis et al, 2014;Marchant et al, 2016) and is believed to play a significant role in the evolution of vascular plants (Otto and Whitton, 2000;. As many as 70-80% of Angiosperms, including many crop species, and up to 95% of Pteridophytes have a polyploid origin (Bennet, 2004;Gregory and Mable, 2005;Otto, 2007).…”

Section: Introductionmentioning

confidence: 99%

Plant and Animal Cytogenetics in Latin America

2022

BAG

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Chile is located in the south-western region of South America along the Pacific Ocean and contributes to the worldwide flora with ca. 6,120 species of Bryophyta, Pteridophyta, Pinophyta, Gnetophyta, and Magnoliophyta (1.9% of worldwide total species), exhibiting high endemism across all plant divisions. Little is known about the genetic diversity of Chilean land plants worldwide, including their cytogenetic and molecular characteristics. In 2012 we published the first state-of-the-art review in Cytogenetics of Chilean Angiosperms. The article gathered 78 publications from 1924 to 2010 accounting for approximately 139 species (2.8% of total Chilean species). The aim of this paper was to review the advances in cytogenetic studies of Chilean land plants, reporting additional cytogenetic data for species of four botanical divisions until 2020.Cytogenetic data were searched in the CPCD (Chilean Plants Cytogenetic Database). In total, we found 180 publications from both Chilean and foreign researchers. To date, cytogenetic data have been reported for 499 Chilean land plant species (8.2% of total) belonging to 244 genera and 117 families. In this context, the 2001-2020 period has been among the most productive regarding publications, with 74 available reports that include 163 additional species. Based on chromosome numbers, angiosperms and bryophytes registered the greatest diversity with 55 and 29 different 2n, respectively; both divisions having the greatest number of studied species. Given the importance of increasing information on Chilean land plants, it is expected that more publications will contribute to the knowledge of their cytogenetic diversity in the near future.

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Genome Evolution in Plants

Cited by 7 publications

References 80 publications

Crop pangenomes

Crop pangenomes

Post-zygotic reproductive isolation is not correlated with chromosome number in plants

Plant and Animal Cytogenetics in Latin America

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