Your search keyword '"Polyploidy"' showing total 35,034 results

151. Cytonuclear interplay in auto‐ and allopolyploids: a multifaceted perspective from the Festuca‐Lolium complex.

Author

Shahbazi, Mehrdad, Majka, Joanna, Kubíková, Denisa, Zwierzykowski, Zbigniew, Glombik, Marek, Wendel, Jonathan F., Sharbrough, Joel, Hartmann, Stephan, Szecówka, Marek, Doležel, Jaroslav, Bartoš, Jan, Kopecký, David, and Kneřová, Jana

Subjects

*CHLOROPLAST DNA, *POLYPLOIDY, *PLANT hybridization, *GENE expression, *RYEGRASSES, *PLANT evolution

Abstract

SUMMARY: Restoring cytonuclear stoichiometry is necessary after whole‐genome duplication (WGD) and interspecific/intergeneric hybridization in plants. We investigated this phenomenon in auto‐ and allopolyploids of the Festuca‐Lolium complex providing insights into the mechanisms governing cytonuclear interactions in early polyploid and hybrid generations. Our study examined the main processes potentially involved in restoring the cytonuclear balance after WGD comparing diploids and new and well‐established autopolyploids. We uncovered that both the number of chloroplasts and the number of chloroplast genome copies were significantly higher in the newly established autopolyploids and grew further in more established autopolyploids. The increase in the copy number of the chloroplast genome exceeded the rise in the number of chloroplasts and fully compensated for the doubling of the nuclear genome. In addition, changes in nuclear and organelle gene expression were insignificant. Allopolyploid Festuca × Lolium hybrids displayed potential structural conflicts in parental protein variants within the cytonuclear complexes. While biased maternal allele expression has been observed in numerous hybrids, our results suggest that its role in cytonuclear stabilization in the Festuca × Lolium hybrids is limited. This study provides insights into the restoration of the cytonuclear stoichiometry, yet it emphasizes the need for future research to explore post‐transcriptional regulation and its impact on cytonuclear gene expression stoichiometry. Our findings may enhance the understanding of polyploid plant evolution, with broader implications for the study of cytonuclear interactions in diverse biological contexts. [ABSTRACT FROM AUTHOR]

Published

2024

152. wgd v2: a suite of tools to uncover and date ancient polyploidy and whole-genome duplication.

Author

Chen, Hengchi, Zwaenepoel, Arthur, and Peer, Yves Van de

Subjects

*POLYPLOIDY, *PLANT genomes, *PHYLOGENETIC models, *AGE distribution, *GENOMES

Abstract

Motivation Major improvements in sequencing technologies and genome sequence assembly have led to a huge increase in the number of available genome sequences. In turn, these genome sequences form an invaluable source for evolutionary, ecological, and comparative studies. One kind of analysis that has become routine is the search for traces of ancient polyploidy, particularly for plant genomes, where whole-genome duplication (WGD) is rampant. Results Here, we present a major update of a previously developed tool wgd, namely wgd v2, to look for remnants of ancient polyploidy, or WGD. We implemented novel and improved previously developed tools to (a) construct K S age distributions for the whole-paranome (collection of all duplicated genes in a genome), (b) unravel intragenomic and intergenomic collinearity resulting from WGDs, (c) fit mixture models to age distributions of gene duplicates, (d) correct substitution rate variation for phylogenetic placement of WGDs, and (e) date ancient WGDs via phylogenetic dating of WGD-retained gene duplicates. The applicability and feasibility of wgd v2 for the identification and the relative and absolute dating of ancient WGDs is demonstrated using different plant genomes. Availability and implementation wgd v2 is open source and available at https://github.com/heche-psb/wgd. [ABSTRACT FROM AUTHOR]

Published

2024

153. Special issue.: The role of whole genome duplication in evolutionary ecology.

Author

Segraves, Kari A. and Anneberg, Thomas J.

Subjects

*POLYPLOIDY, *EMPIRICAL research

Abstract

Polyploid organisms are common and can be found across the tree of life. A key question is to understand how and why these polyploid lineages become established and persist in populations, particularly since they are predicted to have a low probability of success. While the collection of papers in this special issue addresses broad questions on the evolutionary ecology of polyploids, ultimately, these studies also highlight the myriad ways that we are examining what drives the success of polyploid lineages. In this paper we consider where we've been and the challenges that we face, and then propose several directions that will allow us to continue to propel the field towards our ultimate goal of understanding the rules that govern the establishment and persistence of polyploid populations. We conclude that developing this rule set will require a combination of model systems for which we have detailed knowledge of the phylogenetic and population genetic history, expanding our perspective beyond plants to include greater taxonomic breadth, and conducting studies in ecologically relevant settings. Additionally, we argue that future research on the evolutionary ecology of polyploidy should focus on integrating theory and empirical research, providing mechanistic linkages between the effects of whole genome duplication and population demography, and build a predictive framework to understand how anthropogenic change will impact polyploid organisms. [ABSTRACT FROM AUTHOR]

Published

2024

154. Understanding polyploid establishment: temporary persistence or stable coexistence?

Author

Mortier, Frederik, Bafort, Quinten, Milosavljevic, Silvija, Kauai, Felipe, Prost Boxoen, Lucas, Van de Peer, Yves, and Bonte, Dries

Subjects

*EXTREME environments, *STOCHASTIC processes, *PLOIDY, *POLYPLOIDY, *COST estimates, *PHENOTYPES

Abstract

Polyploidy, resulting from whole‐genome duplication (WGD), is ubiquitous in nature and reportedly associated with extreme environments and biological invasions. However, WGD usually comes with great costs, raising questions about the establishment chance of newly formed polyploids. The surprisingly high number of polyploid and mixed‐ploidy species observed in nature may be a consequence of their continuous emergence or may reflect stable polyploid persistence and even coexistence with the ancestral ploidy under certain circumstances. However, empirical studies on contemporary polyploid establishment often neglect the cost–benefit balances of polyploid characteristics, tradeoffs between phenotypic characteristics, intercytotype interactions, recurrent polyploid formation, and stochastic processes. Here, we advocate for considering population‐level success, combining the aforementioned factors that affect polyploid establishment and long‐term coexistence with their ancestors. We approach the paradox of polyploid establishment despite high costs from a modern coexistence theory perspective and give an overview of the diversity of mechanisms and their timing that may potentially enable stable rather than transient persistence. [ABSTRACT FROM AUTHOR]

Published

2024

155. Divergence in cold tolerance promotes niche differentiation between diploid and polyploid kiwifruits along an altitudinal gradient in Southwest China.

Author

Yang, Shi‐Jian, Zhang, Yong‐Jiang, Zhang, Ya, Peng, Jun‐Chu, Liu, Cai‐Yan, Li, Da‐Wei, and Guo, Wen

Subjects

*KIWIFRUIT, *FROST resistance of plants, *WATER damage, *PHYSIOLOGY, *ELASTIC modulus, COLD regions

Abstract

Polyploidization is hypothesized to improve the freezing resistance of plants in cold regions. However, adaptive strategies and key physiological mechanisms involved in the freezing resistant ability of polyploids remain unclear. In Actinidia chinensis (kiwifruits), the tetraploids and hexaploids occupy higher altitude habitats with colder climates than the diploids, providing a study system to investigate mechanisms responsible for differentiation in freezing resistance between cytotypes. We characterized environmental conditions of their natural distribution areas, and measured leaf‐level traits of cold damages and water relations at typical sites of each cytotype along an altitudinal gradient. Polyploids showed lower semi‐lethal temperature (LT50) than ice nucleation temperature (INT), reflecting a tolerance strategy to cope with freezing events in the plateau regions. More negative turgor loss points and larger cell elastic modulus of polyploids could help to alleviate damages from freezing‐induced cell dehydration, thus strengthening their tolerance to lower subzero temperatures (lower LT50). The increased supercooling capacity of polyploids (lower INT) might correlate with less extracellular ice formation due to lower osmotic potential at full turgor, apoplastic water fraction and tissue capacitance. Our study uncovers a greater cold tolerance in polyploid kiwifruits than diploids, and suggests the potential linkage between freezing tolerance and water relations. Taken together, such a divergence in stress resistance may underlie the niche shift of polyploid plants towards harsh environments. [ABSTRACT FROM AUTHOR]

Published

2024

156. Differences in pathogen resistance between diploid and polyploid plants: a systematic review and meta‐analysis.

Author

Hagen, Eric R. and Mason, Chase M.

Subjects

*POLYPLOIDY, *PATHOGENIC microorganisms, *PUBLICATION bias, *PLANT-pathogen relationships, *CHROMOSOMES

Abstract

Polyploidy, the state of having more than two full sets of chromosomes, has been hypothesized to provide several evolutionary advantages to flowering plants including increased ability to resist pathogens and parasites. However, studies comparing pathogen resistance in conspecific and congeneric diploids and polyploids have produced mixed results. While the supposed relationship between polyploidy and pathogen resistance has been commented on in several narrative reviews, it has never been subjected to a systematic meta‐analysis. We examined the effect of polyploidy on pathogen resistance by synthesizing 214 effect sizes from 128 studies. We find that, overall, there is no consistent effect of polyploidy on pathogen resistance. Subgroup analyses suggest that polyploids perform significantly better than diploids only in resisting hemibiotrophic pathogens, and autopolyploids tend show greater resistance than allopolyploids. This is surprising given the fact that polyploids possess extra allele copies of R‐gene alleles that provide resistance to biotrophic pathogens, and this pattern may indicate that signaling cascades needed to elicit hypersensitive responses are disrupted by polyploidy. Disruption is supported by the observation that, across all pathogens, autopolyploids show significantly greater resistance compared to diploids, whereas allopolyploids do not. This is corroborated by the observation that synthetic autopolyploids perform significantly better than their allopolyploid and established counterparts. Regarding pathogen type, diploids show greater resistance than polyploids to pathogens that are fungi or nematodes. Analyses of publication bias indicate little to no bias, and analyses of heterogeneity indicate that phylogeny explains almost none of the observed heterogeneity. These results underscore the importance of not only systematic review but also the strong degree to which the effects of polyploidy depend on ecological context. [ABSTRACT FROM AUTHOR]

Published

2024

157. Investigating the effects of whole genome duplication on phenotypic plasticity: implications for the invasion success of giant goldenrod Solidago gigantea.

Author

Walczyk, Angela M. and Hersch‐Green, Erika I.

Subjects

*PHENOTYPIC plasticity, *WATER efficiency, *GOLDENRODS, *ASEXUAL reproduction, *INTRODUCED species, *GENOMES

Abstract

Polyploidy commonly occurs in invasive species, and phenotypic plasticity (PP, the ability to alter one's phenotype in different environments) is predicted to be enhanced in polyploids and to contribute to their invasive success. However, empirical support that increased PP is frequent in polyploids and/or confers invasive success is limited. Here, we investigated if polyploids are more pre‐adapted to become invasive than diploids via the scaling of trait values and PP with ploidy level, and if post‐introduction selection has led to a divergence in trait values and PP responses between native‐ and non‐native cytotypes. We grew diploid, tetraploid (from both native North American and non‐native European ranges), and hexaploid Solidago gigantea in pots outside with low, medium, and high soil nitrogen and phosphorus (NP) amendments, and measured traits related to growth, asexual reproduction, physiology, and insects/pathogen resistance. Overall, we found little evidence to suggest that polyploidy and post‐introduction selection shaped mean trait and PP responses. When we compared diploids to tetraploids (as their introduction into Europe was more likely than hexaploids) we found that tetraploids had greater pathogen resistance, photosynthetic capacities, and water‐use efficiencies and generally performed better under NP enrichments. Furthermore, tetraploids invested more into roots than shoots in low NP and more into shoots than roots in high NP, and this resource strategy is beneficial under variable NP conditions. Lastly, native tetraploids exhibited greater plasticity in biomass accumulation, clonal‐ramet production, and water‐use efficiency. Cumulatively, tetraploid S. gigantea possesses traits that might have predisposed and enabled them to become successful invaders. Our findings highlight that trait expression and invasive species dynamics are nuanced, while also providing insight into the invasion success and cyto‐geographic patterning of S. gigantea that can be broadly applied to other invasive species with polyploid complexes. [ABSTRACT FROM AUTHOR]

Published

2024

158. Differentiation of rhizosphere fungal assemblages by host ploidy level in mixed‐ploidy Larrea tridentata populations.

Author

Gerstner, Benjamin P., Mann, Michael A., Laport, Robert G., and Whitney, Kenneth D.

Subjects

*LARREA, *PLOIDY, *RHIZOSPHERE, *HOST plants, *PLANT populations

Abstract

Polyploidy – whole genome duplication – is common in plants. Studies over the last several decades have documented numerous mixed‐ploidy populations. Whether arising via recurrent whole genome duplication events within a population, or from secondary contact, the persistence of mixed populations is possible by niche differentiation. Specifically, one mechanism facilitating ploidy co‐occurrence is microbially‐mediated niche differentiation (MMND), wherein cytotypes occupy different niches via interactions with different sets of microbes. Inherently cryptic, MMND is underexplored in polyploid plant populations. Here, we search for evidence of MMND in creosotebush Larrea tridentata, a dominant desert shrub of the southwestern US and northern Mexico. We sequenced root‐associated fungal taxa in soils of diploid, autotetraploid, and autohexaploid plants growing in two naturally‐occurring mixed‐cytotype populations. Within populations, we found substantial fungal assemblage overlap across host plant cytotypes. However, using indicator species analysis, we identified some fungi that are differentiated by host plant cytotype, satisfying a necessarycondition for MMND. Future study is needed to determine the degree of niche differentiation conferred, if any, and whether the identified fungi play a role in the long‐term persistence of multiple cytotypes within populations. [ABSTRACT FROM AUTHOR]

Published

2024

159. Genome‐wide DNA methylation dynamics following recent polyploidy in the allotetraploid Tragopogon miscellus (Asteraceae).

Author

Shan, Shengchen, Gitzendanner, Matthew A., Boatwright, J. Lucas, Spoelhof, Jonathan P., Ethridge, Christina L., Ji, Lexiang, Liu, Xiaoxian, Soltis, Pamela S., Schmitz, Robert J., and Soltis, Douglas E.

Subjects

*DNA methylation, *POLYPLOIDY, *ASTERACEAE, *GENE expression, *METHYLATION, *TRANSPOSONS

Abstract

Summary: Polyploidy is an important evolutionary force, yet epigenetic mechanisms, such as DNA methylation, that regulate genome‐wide expression of duplicated genes remain largely unknown. Here, we use Tragopogon (Asteraceae) as a model system to discover patterns and temporal dynamics of DNA methylation in recently formed polyploids.The naturally occurring allotetraploid Tragopogon miscellus formed in the last 95–100 yr from parental diploids Tragopogon dubius and T. pratensis. We profiled the DNA methylomes of these three species using whole‐genome bisulfite sequencing.Genome‐wide methylation levels in T. miscellus were intermediate between its diploid parents. However, nonadditive CG and CHG methylation occurred in transposable elements (TEs), with variation among TE types. Most differentially methylated regions (DMRs) showed parental legacy, but some novel DMRs were detected in the polyploid. Differentially methylated genes (DMGs) were also identified and characterized.This study provides the first assessment of both overall and locus‐specific patterns of DNA methylation in a recent natural allopolyploid and shows that novel methylation variants can be generated rapidly after polyploid formation. Together, these results demonstrate that mechanisms to regulate duplicate gene expression may arise soon after allopolyploid formation and that these mechanisms vary among genes. [ABSTRACT FROM AUTHOR]

Published

2024

160. Tissue-specific compensatory mechanisms maintain tissue architecture and body size independent of cell size in polyploid zebrafish.

Author

Small, C.D., Benfey, T.J., and Crawford, B.D.

Subjects

*CELL size, *BODY size, *BRACHYDANIO, *PLOIDY, *MUSCLE cells

Abstract

Genome duplications and ploidy transitions have occurred in nearly every major taxon of eukaryotes, but they are far more common in plants than in animals. Due to the conservation of the nuclear:cytoplasmic volume ratio increased DNA content results in larger cells. In plants, polyploid organisms are larger than diploids as cell number remains relatively constant. Conversely, vertebrate body size does not correlate with cell size and ploidy as vertebrates compensate for increased cell size to maintain tissue architecture and body size. This has historically been explained by a simple reduction in cell number that matches the increase in cell size maintaining body size as ploidy increases, but here we show that the compensatory mechanisms that maintain body size in triploid zebrafish are tissue-specific: A) erythrocytes respond in the classical pattern with a reduced number of larger erythrocytes in circulation, B) muscle, a tissue comprised of polynucleated muscle fibers, compensates by reducing the number of larger nuclei such that myofiber and myotome size in unaffected by ploidy, and C) vascular tissue compensates by thickening blood vessel walls, possibly at the expense of luminal diameter. Understanding the physiological implications of ploidy on tissue function requires a detailed description of the specific mechanisms of morphological compensation occurring in each tissue to understand how ploidy changes affect development and physiology. [Display omitted] • Tissue-specific mechanisms compensate for changes in cell size. • Blastomere size, cleavage pattern and rate are not affected by ploidy. • Erythrocytes conform to the canonical pattern of 'fewer but larger cells'. • Multinucleate skeletal muscle cells adjust the number of nuclei to maintain size. • Vasculature is comprised of the same number and pattern of larger endothelial cells. [ABSTRACT FROM AUTHOR]

Published

2024

161. Determinación de aneuploidías/ poliploidías en vacas Holstein con historial de aborto.

Author

Meza-López, Carlos, Bañuelos-Valenzuela, Rómulo, Lozano-Carbajal, Braulio, de la Colina-Flores, Federico, and Delgadillo Ruiz, Lucía

Subjects

*CHROMOSOME abnormalities, *ABORTION, *COWS, *POLYPLOIDY, *BLOOD sampling, *POSSIBILITY

Abstract

Objective. Determine chromosomal aberrations such as aneuploidies/polyploidies (ap/pp) of cows with a history of abortion from a municipality in Zacatecas, Mexico. Materials and methods. 107 blood samples were collected from cows with a history of abortion and ages between 3 and 10 years in the municipality of Enrique Estrada Zacatecas Mexico, a chromosomal analysis was performed with the conventional cytogenetic technique, to determine chromosomal aberrations such as aneuploidies/ polyploidies. Results. The ap/pp cows range from those that did not present any aberrations (0%), a median of (2%) and a maximum of (16%) chromosomal aberrations, the recorded age of the cows was a minimum of 3.5 years, a median of 5.8 and a maximum of 7.4. With these results it can be predicted that there is the possibility that with each year a cow will abort and it increases by 31.7%. However, the p of this coefficient is 0.384—not significant. On the other hand, the possibility of a cow aborting increases by 16.5% with each unit percentage increase in the degree of polyploidy, and the p for this coefficient is 0.029, which is significant. Conclusions. Aneuploidies/polyploidies in correlation with the age of the cows are a possible probability of abortion. [ABSTRACT FROM AUTHOR]

Published

2024

162. Evolutionary divergence of subgenomes in common carp provides insights into speciation and allopolyploid success.

Author

Lin Chen, Chengyu Li, Bijun Li, Xiaofan Zhou, Yulin Bai, Xiaoqing Zou, Zhixiong Zhou, Qian He, Baohua Chen, Mei Wang, Yaguo Xue, Zhou Jiang, Jianxin Feng, Tao Zhou, Zhanjiang Liu, and Peng Xu

Subjects

*CARP, *POLYPLOIDY, *GENETIC speciation, *GENE expression, *HETEROSIS

Abstract

Hybridization and polyploidization have made great contributions to speciation, heterosis, and agricultural production within plants, but there is still limited understanding and utilization in animals. Subgenome structure and expression reorganization and cooperation post hybridization and polyploidization are essential for speciation and allopolyploid success. However, the mechanisms have not yet been comprehensively assessed in animals. Here, we produced a high-fidelity reference genome sequence for common carp, a typical allotetraploid fish species cultured worldwide. This genome enabled in-depth analysis of the evolution of subgenome architecture and expression responses. Most genes were expressed with subgenome biases, with a trend of transition from the expression of subgenome A during the early stages to that of subgenome B during the late stages of embryonic development. While subgenome A evolved more rapidly, subgenome B contributed to a greater level of expression during development and under stressful conditions. Stable dominant patterns for homoeologous gene pairs both during development and under thermal stress suggest a potential fixed heterosis in the allotetraploid genome. Preferentially expressing either copy of a homoeologous gene at higher levels to confer development and response to stress indicates the dominant effect of heterosis. The plasticity of subgenomes and their shifting of dominant expression during early development, and in response to stressful conditions, provide novel insights into the molecular basis of the successful speciation, evolution, and heterosis of the allotetraploid common carp. [ABSTRACT FROM AUTHOR]

Published

2024

163. Pollen morphology of Norwegian hybrids of Sorbus.

Author

Andersen, Heidi Lie, Dhakal, Nirmala, Parsian, Hoda Houshiar, Salvesen, Per Harald, and Bjune, Anne Elisabeth

Subjects

*POLLEN, *PRINCIPAL components analysis, *MORPHOLOGY, *ENDANGERED species, *SURFACE structure

Abstract

The genus Sorbus s.l. consists of small to medium‐sized trees primarily found in coastal areas, with three European hotspots of diversification: Fennoscandia, south‐east Europe and the British Isles. Taxonomic classification of Sorbus s.l. in Europe is still unresolved, and this study aims to address this issue by examining the pollen morphology of various Sorbus hybrids. Pollen morphology of 16 specimens from 13 species of Sorbus s.str., Aria and Hedlundia, some of them common, others are endemic and listed as threatened species, were studied. Measurements of the polar and equatorial axis of all pollen grains show that there are variations in pollen size and shape among different hybrids, with a correlation between ploidy levels and the equatorial diameter of the pollen. Surface structures of the pollen were observed using SEM. Principal component analysis (PCA) was performed to analyze the pollen characters, and the results show that it is possible to separate Aria from Sorbus and Hedlundia based on the length of the polar axis of the pollen grain, while the number of perforations is important for classification within Hedlundia. The study concludes that pollen morphology can be a useful tool for distinguishing between different Sorbus hybrids and can thus aid in understanding their past distributions. [ABSTRACT FROM AUTHOR]

Published

2024

164. Phylogenetic and taxonomic relationships between morphotypes related to Elymus caninus (Poaceae) based on sequence of a nuclear gene GBSS1 (waxy) and sexual hybridization.

Author

Agafonov, Alexander V., Shabanova, Elena V., Emtseva, Maria V., Asbaganov, Sergey V., Morozov, Igor V., Bondar, Alexander A., and Dorogina, Olga V.

Subjects

*SPECIES hybridization, *NUMBERS of species, *GENES, *HORDEUM, *SPECIES, *POLYPLOIDY

Abstract

We represent a comparative analysis of GBSS1 gene fragment sequences for a number of species related to Elymus caninus: Elymus prokudinii, Elymus viridiglumis, Elymus goloskokovii, as well as a number of morphologically deviating biotypes, inhabiting Russia and Kazakhstan. Microevolutionary relationships between species were assessed from dendrograms derived from sequences of exons and introns. In all taxa, the St subgenome was represented by St2 variants, rather typical of the North American ancestral line of Pseudoroegneria spicata than of the Asian line descending from Pseudoroegneria strigosa. All putative relatives of E. caninus had H1 subgenome variants linked around the Asian diploid carrier of the H genome from Hordeum jubatum and were divided into two subclades. One of them (H1‐1) contained most of the closely related E. caninus clones, including Elymus uralensis. Another subclade (H1‐2) consisted of five variants phylogenetically related to Elymus mutabilis. We have also studied reproductive relationships between species E. goloskokovii, E. prokudinii, and E. viridiglumis and the degree of their integration into the E. caninus complex. Biotypes included in sexual hybridization formed a single recombination gene pool, within which slight differences in reproductive compatibility were observed. A comprehensive study of microevolutionary differentiation of taxa showed the expediency of taxonomic revision. The species mentioned should probably be relegated to the infraspecific rank within E. caninus s. l. [ABSTRACT FROM AUTHOR]

Published

2024

165. Ancient hybridization and repetitive element proliferation in the evolutionary history of the monocot genus Amomum (Zingiberaceae).

Author

Hlavatá, Kristýna, Záveská, Eliška, Leong-Škorničková, Jana, Pouch, Milan, Poulsen, Axel Dalberg, Šída, Otakar, Khadka, Bijay, Mandáková, Terezie, and Fér, Tomáš

Subjects

SPECIES hybridization, GENOME size, PLANT evolution, ZINGIBERACEAE, GENOMES, POLYPLOIDY

Abstract

Genome size variation is a crucial aspect of plant evolution, influenced by a complex interplay of factors. Repetitive elements, which are fundamental components of genomic architecture, often play a role in genome expansion by selectively amplifying specific repeat motifs. This study focuses on Amomum, a genus in the ginger family (Zingiberaceae), known for its 4.4-fold variation in genome size. Using a robust methodology involving PhyloNet reconstruction, RepeatExplorer clustering, and repeat similarity-based phylogenetic network construction, we investigated the repeatome composition, analyzed repeat dynamics, and identified potential hybridization events within the genus. Our analysis confirmed the presence of four major infrageneric clades (A-D) within Amomum, with clades A-C exclusively comprising diploid species (2n = 48) and clade D encompassing both diploid and tetraploid species (2n = 48 and 96). We observed an increase in the repeat content within the genus, ranging from 84% to 89%, compared to outgroup species with 75% of the repeatome. The SIRE lineage of the Ty1-Copia repeat superfamily was prevalent in most analyzed ingroup genomes. We identified significant difference in repeatome structure between the basal Amomum clades (A, B, C) and the most diverged clade D. Our investigation revealed evidence of ancient hybridization events within Amomum, coinciding with a substantial proliferation of multiple repeat groups. This finding supports the hypothesis that ancient hybridization is a driving force in the genomic evolution of Amomum. Furthermore, we contextualize our findings within the broader context of genome size variations and repeatome dynamics observed across major monocot lineages. This study enhances our understanding of evolutionary processes within monocots by highlighting the crucial roles of repetitive elements in shaping genome size and suggesting the mechanisms that drive these changes. [ABSTRACT FROM AUTHOR]

Published

2024

166. The evolution and formation of centromeric repeats analysis in Vitis vinifera.

Author

Pei, Dan, Yu, Xue, Fu, Weihong, Ma, Xuhui, and Fang, Jinggui

Abstract

Main conclusion: Six grape centromere-specific markers for cytogenetics were mined by combining genetic and immunological assays, and the possible evolution mechanism of centromeric repeats was analyzed. Centromeric histone proteins are functionally conserved; however, centromeric repetitive DNA sequences may represent considerable diversity in related species. Therefore, studying the characteristics and structure of grape centromere repeat sequences contributes to a deeper understanding of the evolutionary process of grape plants, including their origin and mechanisms of polyploidization. Plant centromeric regions are mainly composed of repetitive sequences, including SatDNA and transposable elements (TE). In this research, the characterization of centromere sequences in the whole genome of grapevine (Vitis vinifera L.) has been conducted. Five centromeric tandem repeat sequences (Vv1, Vv2, Vv5, Vv6, and Vv8) and one long terminal repeat (LTR) sequence Vv24 were isolated. These sequences had different centromeric distributions, which indicates that grape centromeric sequences may undergo rapid evolution. The existence of extrachromosomal circular DNA (eccDNA) and gene expression in CenH3 subdomain region may provide various potential mechanisms for the generation of new centromeric regions. [ABSTRACT FROM AUTHOR]

Published

2024

167. Evolutionary Dynamics of Chromatin Structure and Duplicate Gene Expression in Diploid and Allopolyploid Cotton.

Author

Hu, Guanjing, Grover, Corrinne E, Vera, Daniel L, Lung, Pei-Yau, Girimurugan, Senthil B, Miller, Emma R, Conover, Justin L, Ou, Shujun, Xiong, Xianpeng, Zhu, De, Li, Dongming, Gallagher, Joseph P, Udall, Joshua A, Sui, Xin, Zhang, Jinfeng, Bass, Hank W, and Wendel, Jonathan F

Subjects

POLYPLOIDY, GENE expression, CHROMATIN, GENETIC regulation, PLANT species, SYMMETRY (Biology), REGULATOR genes

Abstract

Polyploidy is a prominent mechanism of plant speciation and adaptation, yet the mechanistic understandings of duplicated gene regulation remain elusive. Chromatin structure dynamics are suggested to govern gene regulatory control. Here, we characterized genome-wide nucleosome organization and chromatin accessibility in allotetraploid cotton, Gossypium hirsutum (AADD, 2 n = 4 X = 52), relative to its two diploid parents (AA or DD genome) and their synthetic diploid hybrid (AD), using DNS-seq. The larger A-genome exhibited wider average nucleosome spacing in diploids, and this intergenomic difference diminished in the allopolyploid but not hybrid. Allopolyploidization also exhibited increased accessibility at promoters genome-wide and synchronized cis -regulatory motifs between subgenomes. A prominent cis -acting control was inferred for chromatin dynamics and demonstrated by transposable element removal from promoters. Linking accessibility to gene expression patterns, we found distinct regulatory effects for hybridization and later allopolyploid stages, including nuanced establishment of homoeolog expression bias and expression level dominance. Histone gene expression and nucleosome organization are coordinated through chromatin accessibility. Our study demonstrates the capability to track high-resolution chromatin structure dynamics and reveals their role in the evolution of cis -regulatory landscapes and duplicate gene expression in polyploids, illuminating regulatory ties to subgenomic asymmetry and dominance. [ABSTRACT FROM AUTHOR]

Published

2024

168. Pangenome analysis reveals transposon-driven genome evolution in cotton.

Author

He, Xin, Qi, Zhengyang, Liu, Zhenping, Chang, Xing, Zhang, Xianlong, Li, Jianying, and Wang, Maojun

Subjects

*TRANSPOSONS, *PAN-genome, *LOCUS (Genetics), *GENE expression, *GENOMES, *PLANT genomes, *PLANT evolution

Abstract

Background: Transposable elements (TEs) have a profound influence on the trajectory of plant evolution, driving genome expansion and catalyzing phenotypic diversification. The pangenome, a comprehensive genetic pool encompassing all variations within a species, serves as an invaluable tool, unaffected by the confounding factors of intraspecific diversity. This allows for a more nuanced exploration of plant TE evolution. Results: Here, we constructed a pangenome for diploid A-genome cotton using 344 accessions from representative geographical regions, including 223 from China as the main component. We found 511 Mb of non-reference sequences (NRSs) and revealed the presence of 5479 previously undiscovered protein-coding genes. Our comprehensive approach enabled us to decipher the genetic underpinnings of the distinct geographic distributions of cotton. Notably, we identified 3301 presence-absence variations (PAVs) that are closely tied to gene expression patterns within the pangenome, among which 2342 novel expression quantitative trait loci (eQTLs) were found residing in NRSs. Our investigation also unveiled contrasting patterns of transposon proliferation between diploid and tetraploid cotton, with long terminal repeat (LTR) retrotransposons exhibiting a synchronized surge in polyploids. Furthermore, the invasion of LTR retrotransposons from the A subgenome to the D subgenome triggered a substantial expansion of the latter following polyploidization. In addition, we found that TE insertions were responsible for the loss of 36.2% of species-specific genes, as well as the generation of entirely new species-specific genes. Conclusions: Our pangenome analyses provide new insights into cotton genomics and subgenome dynamics after polyploidization and demonstrate the power of pangenome approaches for elucidating transposon impacts and genome evolution. [ABSTRACT FROM AUTHOR]

Published

2024

169. Phenotypic variation seems not to be associated with the genetic profile in Zygopetalum (Orchidaceae): a case study of a high-elevation rocky complex.

Author

Gomes, Shaiany Sabrina Lopes, Lopes, Juliana Mainenti Leal, de Matos, Elyabe Monteiro, Cabral, Elisa Guimarães, Azevedo, Ana Luisa Sousa, Machado, Marco Antonio, de Campos, José Marcello Salabert, Neto, Luiz Menini, and Viccini, Lyderson Facio

Abstract

Background: Hybridization associated with polyploidy studies is rare in the tropics. The genus Zygopetalum (Orchidaceae) was investigated here as a case study of Neotropical plants. In the rocky highlands of the Ibitipoca State Park (ISP), southeast Brazil, individuals with intermediate colors and forms between the species Z. maculatum and Z. triste were commonly identified. Methods and results: Chromosomal analysis and DNA quantity showed a uniform population. Regardless of the aspects related to the color and shape of floral structures, all individuals showed 2n = 96 chromosomes and an average of 14.05 pg of DNA. Irregularities in meiosis associated with chromosome number and C value suggest the occurrence of polyploidy. The genetic distance estimated using ISSR molecular markers revealed the existence of genetic variability not related to morphological clusters. Morphometric measurements of the flower pieces revealed that Z. maculatum shows higher variation than Z. triste although lacking a defined circumscription. Conclusion: The observed variation can be explained by the polyploid and phenotypic plasticity resulting from the interaction of the genotypes with the heterogeneous environments observed in this habitat. [ABSTRACT FROM AUTHOR]

Published

2024

170. The neoteny goldilocks zone: The evolution of neoteny in Ambystoma.

Author

Lyons, Thom A. and Arbuckle, Kevin

Subjects

*SPECIES diversity, *COMPARATIVE method, *SALAMANDERS, *SPELEOTHEMS, *POLYPLOIDY, *TEST methods

Abstract

Neoteny is a developmental strategy wherein an organism reaches sexual maturity without associated adult characteristics. In salamanders, neoteny takes the form of individuals retaining aquatic larval characteristics such as external gills upon maturation. Mole salamanders (Ambystoma) occupy a wide range of habitats and areas across the North American continent, and display examples of non‐neotenic, facultatively neotenic and obligate neotenic species, providing high variation for investigating the factors influencing the evolution of neoteny. Here, we use phylogenetic comparative methods to test existing hypotheses that neoteny is associated with elevational and latitudinal distribution, cave‐associated isolation, and hybridisation‐related polyploidy. We also test if neoteny influences the diversity of habitats a species can occupy, since the restriction to an aquatic life should constrain the availability of different niches. We find that neoteny tends to occur in a narrow latitudinal band between 20–30° North, with particularly narrow latitudinal ranges for obligate compared to facultative neotenic species (16–52° North). We also find that facultatively neotenic species occur at elevations more than twice as high as other species on average, and that species with a higher frequency of neoteny typically have lower habitat diversity. Our results suggest that evolutionary transitions between non‐neotenic and facultative neoteny states occur at relatively high and approximately equal rates. Moreover, we estimate that obligate neoteny cannot evolve directly from non‐neotenic species (and vice versa), such that facultative neoteny acts as an evolutionary 'stepping stone' to and from obligate neoteny. However, our transition rate estimates suggest that obligate neoteny is lost >4‐times faster than it evolves, partly explaining the rarity of obligate species. These results support the hypothesis that low latitudes favour the evolution of neoteny, presumably linked to more stable (aquatic) environments due to reduced seasonality, but once evolved it may constrain the diversity of habitats. [ABSTRACT FROM AUTHOR]

Published

2024

171. The global distribution of angiosperm genome size is shaped by climate.

Author

Bureš, Petr, Elliott, Tammy L., Veselý, Pavel, Šmarda, Petr, Forest, Félix, Leitch, Ilia J., Nic Lughadha, Eimear, Soto Gomez, Marybel, Pironon, Samuel, Brown, Matilda J. M., Šmerda, Jakub, and Zedek, František

Subjects

*GENOME size, *GENETIC drift, *PLANT genomes, *PLANT size, *POLYPLOIDY, *GENOMES

Abstract

Summary: Angiosperms, which inhabit diverse environments across all continents, exhibit significant variation in genome sizes, making them an excellent model system for examining hypotheses about the global distribution of genome size. These include the previously proposed large genome constraint, mutational hazard, polyploidy‐mediated, and climate‐mediated hypotheses.We compiled the largest genome size dataset to date, encompassing 16 017 (> 5% of known) angiosperm species, and analyzed genome size distribution using a comprehensive geographic distribution dataset for all angiosperms.We observed that angiosperms with large range sizes generally had small genomes, supporting the large genome constraint hypothesis. Climate was shown to exert a strong influence on genome size distribution along the global latitudinal gradient, while the frequency of polyploidy and the type of growth form had negligible effects. In contrast to the unimodal patterns along the global latitudinal gradient shown by plant size traits and polyploid proportions, the increase in angiosperm genome size from the equator to 40–50°N/S is probably mediated by different (mostly climatic) mechanisms than the decrease in genome sizes observed from 40 to 50°N northward.Our analysis suggests that the global distribution of genome sizes in angiosperms is mainly shaped by climatically mediated purifying selection, genetic drift, relaxed selection, and environmental filtering. [ABSTRACT FROM AUTHOR]

Published

2024

172. Genetic diversity, disease resistance, and environmental adaptation of Arachis duranensis L.: New insights from landscape genomics.

Author

Massa, Alicia N., Sobolev, Victor S., Faustinelli, Paola C., Tallury, Shyamalrau P., Stalker, H. Thomas, Lamb, Marshall C., and Arias, Renee S.

Subjects

*GENETIC variation, *GENOMICS, *NATURAL immunity, *LEAF spots, *ARACHIS, *SINGLE nucleotide polymorphisms, *INTROGRESSION (Genetics), *POLYPLOIDY

Abstract

The genetic diversity that exists in natural populations of Arachis duranensis, the wild diploid donor of the A subgenome of cultivated tetraploid peanut, has the potential to improve crop adaptability, resilience to major pests and diseases, and drought tolerance. Despite its potential value for peanut improvement, limited research has been focused on the association between allelic variation, environmental factors, and response to early (ELS) and late leaf spot (LLS) diseases. The present study implemented a landscape genomics approach to gain a better understanding of the genetic variability of A. duranensis represented in the ex-situ peanut germplasm collection maintained at the U.S. Department of Agriculture, which spans the entire geographic range of the species in its center of origin in South America. A set of 2810 single nucleotide polymorphism (SNP) markers allowed a high-resolution genome-wide characterization of natural populations. The analysis of population structure showed a complex pattern of genetic diversity with five putative groups. The incorporation of bioclimatic variables for genotype-environment associations, using the latent factor mixed model (LFMM2) method, provided insights into the genomic signatures of environmental adaptation, and led to the identification of SNP loci whose allele frequencies were correlated with elevation, temperature, and precipitation-related variables (q < 0.05). The LFMM2 analysis for ELS and LLS detected candidate SNPs and genomic regions on chromosomes A02, A03, A04, A06, and A08. These findings highlight the importance of the application of landscape genomics in ex situ collections of peanut and other crop wild relatives to effectively identify favorable alleles and germplasm for incorporation into breeding programs. We report new sources of A. duranensis germplasm harboring adaptive allelic variation, which have the potential to be utilized in introgression breeding for a single or multiple environmental factors, as well as for resistance to leaf spot diseases. [ABSTRACT FROM AUTHOR]

Published

2024

173. The emerging importance of cross‐ploidy hybridisation and introgression.

Author

Brown, Max R., Abbott, Richard J., and Twyford, Alex D.

Subjects

*SPECIES hybridization, *INTROGRESSION (Genetics), *BOTANY, *HYBRID zones, *PLOIDY, *POLYPLOIDY

Abstract

Natural hybridisation is now recognised as pervasive in its occurrence across the Tree of Life. Resurgent interest in natural hybridisation fuelled by developments in genomics has led to an improved understanding of the genetic factors that promote or prevent species cross‐mating. Despite this body of work overturning many widely held assumptions about the genetic barriers to hybridisation, it is still widely thought that ploidy differences between species will be an absolute barrier to hybridisation and introgression. Here, we revisit this assumption, reviewing findings from surveys of polyploidy and hybridisation in the wild. In a case study in the British flora, 203 hybrids representing 35% of hybrids with suitable data have formed via cross‐ploidy matings, while a wider literature search revealed 59 studies (56 in plants and 3 in animals) in which cross‐ploidy hybridisation has been confirmed with genetic data. These results show cross‐ploidy hybridisation is readily overlooked, and potentially common in some groups. General findings from these studies include strong directionality of hybridisation, with introgression usually towards the higher ploidy parent, and cross‐ploidy hybridisation being more likely to involve allopolyploids than autopolyploids. Evidence for adaptive introgression across a ploidy barrier and cases of cross‐ploidy hybrid speciation shows the potential for important evolutionary outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

174. Polyploidy Promotes Hypertranscription, Apoptosis Resistance, and Ciliogenesis in Cancer Cells and Mesenchymal Stem Cells of Various Origins: Comparative Transcriptome In Silico Study.

Author

Anatskaya, Olga V. and Vinogradov, Alexander E.

Subjects

*MESENCHYMAL stem cells, *CANCER stem cells, *POLYPLOIDY, *CANCER cell analysis, *DNA repair, *CELL populations

Abstract

Mesenchymal stem cells (MSC) attract an increasing amount of attention due to their unique therapeutic properties. Yet, MSC can undergo undesirable genetic and epigenetic changes during their propagation in vitro. In this study, we investigated whether polyploidy can compromise MSC oncological safety and therapeutic properties. For this purpose, we compared the impact of polyploidy on the transcriptome of cancer cells and MSC of various origins (bone marrow, placenta, and heart). First, we identified genes that are consistently ploidy-induced or ploidy-repressed through all comparisons. Then, we selected the master regulators using the protein interaction enrichment analysis (PIEA). The obtained ploidy-related gene signatures were verified using the data gained from polyploid and diploid populations of early cardiomyocytes (CARD) originating from iPSC. The multistep bioinformatic analysis applied to the cancer cells, MSC, and CARD indicated that polyploidy plays a pivotal role in driving the cell into hypertranscription. It was evident from the upregulation of gene modules implicated in housekeeping functions, stemness, unicellularity, DNA repair, and chromatin opening by means of histone acetylation operating via DNA damage associated with the NUA4/TIP60 complex. These features were complemented by the activation of the pathways implicated in centrosome maintenance and ciliogenesis and by the impairment of the pathways related to apoptosis, the circadian clock, and immunity. Overall, our findings suggest that, although polyploidy does not induce oncologic transformation of MSC, it might compromise their therapeutic properties because of global epigenetic changes and alterations in fundamental biological processes. The obtained results can contribute to the development and implementation of approaches enhancing the therapeutic properties of MSC by removing polyploid cells from the cell population. [ABSTRACT FROM AUTHOR]

Published

2024

175. A cyclical switch of gametogenic pathways in hybrids depends on the ploidy level.

Author

Dedukh, Dmitrij, Marta, Anatolie, Myung, Ra-Yeon, Ko, Myeong-Hun, Choi, Da-Song, Won, Yong-Jin, and Janko, Karel

Subjects

*POLYPLOIDY, *PLOIDY, *ASEXUAL reproduction, *GAMETOGENESIS, *GAMETES, *CELL analysis

Abstract

The cellular and molecular mechanisms governing sexual reproduction are conserved across eukaryotes. Nevertheless, hybridization can disrupt these mechanisms, leading to asexual reproduction, often accompanied by polyploidy. In this study, we investigate how ploidy level and ratio of parental genomes in hybrids affect their reproductive mode. We analyze the gametogenesis of sexual species and their diploid and triploid hybrids from the freshwater fish family Cobitidae, using newly developed cytogenetic markers. We find that diploid hybrid females possess oogonia and oocytes with original (diploid) and duplicated (tetraploid) ploidy. Diploid oocytes cannot progress beyond pachytene due to aberrant pairing. However, tetraploid oocytes, which emerge after premeiotic genome endoreplication, exhibit normal pairing and result in diploid gametes. Triploid hybrid females possess diploid, triploid, and haploid oogonia and oocytes. Triploid and haploid oocytes cannot progress beyond pachytene checkpoint due to aberrant chromosome pairing, while diploid oocytes have normal pairing in meiosis, resulting in haploid gametes. Diploid oocytes emerge after premeiotic elimination of a single-copied genome. Triploid hybrid males are sterile due to aberrant pairing and the failure of chromosomal segregation during meiotic divisions. Thus, changes in ploidy and genome dosage may lead to cyclical alteration of gametogenic pathways in hybrids. The cytogenetic analysis of gonial cells and meiocytes on Korean loach complex suggest that instant switch between sexual to asexual reproduction in hybrids depend on their ploidy and genome dosage. [ABSTRACT FROM AUTHOR]

Published

2024

176. Leveraging the sugarcane CRISPR/Cas9 technique for genetic improvement of non-cultivated grasses.

Author

Chunjia Li and Iqbal, Muhammad Aamir

Subjects

GENETIC techniques, BERMUDA grass, CRISPRS, NATIVE species, SWITCHGRASS, SUGARCANE, GRASSLAND soils

Abstract

Under changing climatic scenarios, grassland conservation and development have become imperative to impart functional sustainability to their ecosystem services. These goals could be effectively and efficiently achieved with targeted genetic improvement of native grass species. To the best of our literature search, very scant research findings are available pertaining to gene editing of noncultivated grass species (switch grass, wild sugarcane, Prairie cordgrass, Bermuda grass, Chinese silver grass, etc.) prevalent in natural and semi-natural grasslands. Thus, to explore this novel research aspect, this study purposes that gene editing techniques employed for improvement of cultivated grasses especially sugarcane might be used for non-cultivated grasses as well. Our hypothesis behind suggesting sugarcane as a model crop for genetic improvement of noncultivated grasses is the intricacy of gene editing owing to polyploidy and aneuploidy compared to other cultivated grasses (rice, wheat, barley, maize, etc.). Another reason is that genome editing protocols in sugarcane (x = 10-13) have been developed and optimized, taking into consideration the high level of genetic redundancy. Thus, as per our knowledge, this review is the first study that objectively evaluates the concept and functioning of the CRISPR (clustered regularly interspaced short palindromic repeats)/Cas9 technique in sugarcane regarding high versatility, target specificity, efficiency, design simplicity, and multiplexing capacity in order to explore novel research perspectives for gene editing of non-cultivated grasses against biotic and abiotic stresses. Additionally, pronounced challenges confronting sugarcane gene editing have resulted in the development of different variants (Cas9, Cas12a, Cas12b, and SpRY) of the CRISPR tool, whose technicalities have also been critically assessed. Moreover, different limitations of this technique that could emerge during gene editing of non-cultivated grass species have also been highlighted. [ABSTRACT FROM AUTHOR]

Published

2024

177. Hybridization, polyploidization, and morphological convergence make dozens of taxa into one chaotic genetic pool: a phylogenomic case of the Ficus erecta species complex (Moraceae).

Author

Xiaomei Wang, Shuai Liao, Zhen Zhang, Jianhang Zhang, Li Mei, and Hongqing Li

Subjects

POLYPLOIDY, SPECIES hybridization, POLLINATORS, CHLOROPLAST DNA, MORACEAE, SPECIES, SPECIES diversity

Abstract

The Ficus erecta complex, characterized by its morphological diversity and frequent interspecific overlap, shares pollinating fig wasps among several species. This attribute, coupled with its intricate phylogenetic relationships, establishes it as an exemplary model for studying speciation and evolutionary patterns. Extensive researches involving RADseq (Restriction-site associated DNA sequencing), complete chloroplast genome data, and flow cytometry methods were conducted, focusing on phylogenomic analysis, genetic structure, and ploidy detection within the complex. Significantly, the findings exposed a pronounced nuclear-cytoplasmic conflict. This evidence, together with genetic structure analysis, confirmed that hybridization within the complex is a frequent occurrence. The ploidy detection revealed widespread polyploidy, with certain species exhibiting multiple ploidy levels, including 2×, 3×, and 4×. Of particular note, only five species (F. abelii, F. erecta, F. formosana, F. tannoensis and F. vaccinioides) in the complex were proved to be monophyletic. Species such as F. gasparriniana, F. pandurata, and F. stenophylla were found to encompass multiple phylogenetically distinct lineages. This discovery, along with morphological comparisons, suggests a significant underestimation of species diversity within the complex. This study also identified F. tannoensis as an allopolyploid species originating from F. vaccinioide and F. erecta. Considering the integration of morphological, molecular systematics, and cytological evidences, it is proposed that the scope of the F. erecta complex should be expanded to the entire subsect. Frutescentiae. This would redefine the complex as a continuously evolving group comprising at least 33 taxa, characterized by blurred species boundaries, frequent hybridization and polyploidization, and ambiguous genetic differentiation. [ABSTRACT FROM AUTHOR]

Published

2024

178. Premature endocycling of Drosophila follicle cells causes pleiotropic defects in oogenesis.

Author

Herriage, Hunter C and Calvi, Brian R

Subjects

*OVUM physiology, *OVARIAN follicle, *CELL cycle proteins, *RESEARCH funding, *CELL physiology, *DESCRIPTIVE statistics, *CELL cycle, *GENES, *HUMAN reproduction, *ANIMAL experimentation, *INSECTS, *OVARIAN diseases, *GENE amplification, *GRANULOSA cells, *GENOMES, *DISEASE risk factors

Abstract

Endocycling cells grow and repeatedly duplicate their genome without dividing. Cells switch from mitotic cycles to endocycles in response to developmental signals during the growth of specific tissues in a wide range of organisms. The purpose of switching to endocycles, however, remains unclear in many tissues. Additionally, cells can switch to endocycles in response to conditional signals, which can have beneficial or pathological effects on tissues. However, the impact of these unscheduled endocycles on development is underexplored. Here, we use Drosophila ovarian somatic follicle cells as a model to examine the impact of unscheduled endocycles on tissue growth and function. Follicle cells normally switch to endocycles at mid-oogenesis. Inducing follicle cells to prematurely switch to endocycles resulted in the lethality of the resulting embryos. Analysis of ovaries with premature follicle cell endocycles revealed aberrant follicular epithelial structure and pleiotropic defects in oocyte growth, developmental gene amplification, and the migration of a special set of follicle cells known as border cells. Overall, these findings reveal how unscheduled endocycles can disrupt tissue growth and function to cause aberrant development. [ABSTRACT FROM AUTHOR]

Published

2024

179. Apomixis goes a long way: Genetic evidence of persistence and long‐distance seed dispersal in an ancient landscape.

Author

Delnevo, Nicola, Binks, Rachel M., van Leeuwen, Stephen, Coates, David J., McArthur, Shelley, Macdonald, Bronwyn M., Hankinson, Margaret, and Byrne, Margaret

Subjects

*SEED dispersal, *APOMIXIS, *CHLOROPLAST DNA, *GENETIC variation, *POPULATION differentiation, *GENITALIA, *ALNUS glutinosa

Abstract

Aim: Apomixis is a widespread trait in extreme environments worldwide, yet phylogeographical studies for species exhibiting these complex reproductive systems are still limited to temperate zones in the Northern Hemisphere. Through analyses of a combination of adult plants and seedlings, and nuclear and chloroplast DNA, we assessed the contemporary genetic outcomes of apomixis and phylogeographical patterns in an arid unglaciated landscape to understand the evolutionary trajectory of apomictic species. Location: Pilbara bioregion, north‐western Australia. Taxon: Senna glutinosa subsp. glutinosa. Materials and Methods: Spatial patterns of genetic diversity and differentiation in three chloroplast regions and 17 nuclear microsatellite markers were evaluated in 480 plants from 20 populations of S. glutinosa subsp. glutinosa across the Pilbara bioregion. We also germinated and genotyped seed for a progeny analysis to quantify polyembryony and the relative frequency of asexual versus sexual reproduction. Results: We found frequent polyembryony and a high proportion of asexual offspring (84.56%), resulting in low within‐population genotypic diversity. The nuclear dataset identified 72 multilocus lineages (MLLs) with moderate pairwise population genetic fixation and low differentiation among populations with no geographically structured genetic clustering. Chloroplast DNA showed high haplotype diversity and a widespread distribution of haplotypes. Only one peripheral population presented a single unique haplotype and MLL. Main Conclusions: Analysis of this woody perennial in an arid landscape shows the influence of apomixis on genetic patterns and species persistence. Haplotype diversity was indicative of long‐term persistence within the ancient Pilbara region. Widespread distribution of haplotypes and sharing of several nuclear MLLs among distant populations indicated extensive seed dispersal throughout the study area. The combination of polyploidy, facultative apomixis and extensive seed dispersal maintains genetic variability within local populations and promotes the spread of advantageous genotypes across wide geographical distances. Therefore, apomixis, rather than an evolutionary 'dead‐end', can be regarded as a mechanism facilitating evolutionary success of apomictic species in extreme and complex environments. [ABSTRACT FROM AUTHOR]

Published

2024

180. A k-mer-based bulked segregant analysis approach to map seed traits in unphased heterozygous potato genomes.

Author

Sonsungsan, Pajaree, Nganga, Mwaura Livingstone, Lieberman, Meric C, Amundson, Kirk R, Stewart, Victoria, Plaimas, Kitiporn, Comai, Luca, and Henry, Isabelle M

Subjects

*POTATO seeds, *POLYPLOIDY, *GENOMES, *LOCUS (Genetics), *SEED size, *PLANT genetics

Abstract

High-throughput sequencing-based methods for bulked segregant analysis (BSA) allow for the rapid identification of genetic markers associated with traits of interest. BSA studies have successfully identified qualitative (binary) and quantitative trait loci (QTLs) using QTL mapping. However, most require population structures that fit the models available and a reference genome. Instead, high-throughput short-read sequencing can be combined with BSA of k-mers (BSA-k-mer) to map traits that appear refractory to standard approaches. This method can be applied to any organism and is particularly useful for species with genomes diverged from the closest sequenced genome. It is also instrumental when dealing with highly heterozygous and potentially polyploid genomes without phased haplotype assemblies and for which a single haplotype can control a trait. Finally, it is flexible in terms of population structure. Here, we apply the BSA-k-mer method for the rapid identification of candidate regions related to seed spot and seed size in diploid potato. Using a mixture of F1 and F2 individuals from a cross between 2 highly heterozygous parents, candidate sequences were identified for each trait using the BSA-k-mer approach. Using parental reads, we were able to determine the parental origin of the loci. Finally, we mapped the identified k-mers to a closely related potato genome to validate the method and determine the genomic loci underlying these sequences. The location identified for the seed spot matches with previously identified loci associated with pigmentation in potato. The loci associated with seed size are novel. Both loci are relevant in future breeding toward true seeds in potato. [ABSTRACT FROM AUTHOR]

Published

2024

181. The Effect of Genome Parametrization and SNP Marker Subsetting on Genomic Selection in Autotetraploid Alfalfa.

Author

Nazzicari, Nelson, Franguelli, Nicolò, Ferrari, Barbara, Pecetti, Luciano, and Annicchiarico, Paolo

Subjects

*SINGLE nucleotide polymorphisms, *GENOMES, *BIOMASS, *ALLELES, *ALFALFA, *LEGUMES, *HERITABILITY

Abstract

Background: Alfalfa, the most economically important forage legume worldwide, features modest genetic progress due to long selection cycles and the extent of the non-additive genetic variance associated with its autotetraploid genome. Methods: To improve the efficiency of genomic selection in alfalfa, we explored the effects of genome parametrization (as tetraploid and diploid dosages, plus allele ratios) and SNP marker subsetting (all available SNPs, only genic regions, and only non-genic regions) on genomic regressions, together with various levels of filtering on reading depth and missing rates. We used genotyping by sequencing-generated data and focused on traits of different genetic complexity, i.e., dry biomass yield in moisture-favorable (FE) and drought stress (SE) environments, leaf size, and the onset of flowering, which were assessed in 143 genotyped plants from a genetically broad European reference population and their phenotyped half-sib progenies. Results: On average, the allele ratio improved the predictive ability compared with other genome parametrizations (+7.9% vs. tetraploid dosage, +12.6% vs. diploid dosage), while using all the SNPs offered an advantage compared with any specific SNP subsetting (+3.7% vs. genic regions, +7.6% vs. non-genic regions). However, when focusing on specific traits, different combinations of genome parametrization and subsetting achieved better performances. We also released Legpipe2, an SNP calling pipeline tailored for reduced representation (GBS, RAD) in medium-sized genotyping experiments. [ABSTRACT FROM AUTHOR]

Published

2024

182. A growth-regulating factor 7 (GRF7)-mediated gene regulatory network promotes leaf growth and expansion in sugarcane.

Author

Qiaoyu Wang, Yihan Li, Dadong Lin, Xiaoxi Feng, Yongjun Wang, Tianyou Wang, Hongyan Ding, and Jisen Zhang

Subjects

*GENE regulatory networks, *SUGARCANE, *POLYPLOIDY, *CIRCADIAN rhythms, LEAF growth

Abstract

Knowledge of the function of growth-regulating factors (GRFs) in sugarcane (Saccharum officinarum and S. spontaneum) growth and development could assist breeders in selecting desirable plant architectures. However, limited information about GRFs is available in Saccharum due to their polyploidy. In this study, 22 GRFs were identified in the two species and their conserved domains, gene structures, chromosome location, and synteny were characterized. GRF7 expression varied among tissues and responded to diurnal rhythm. SsGRF7-YFPwas localized preferentially in the nucleus and appears to act as a transcriptional cofactor. SsGRF7positively regulated the size and lengthof rice leaves, possibly by regulating cell size and plant hormones. Of seven potential transcription factors binding to the SsGRF7 promoter in S. spontaneum, four showed positive expression patterns, and two showed negative expression patterns relative to SsGRF7. [ABSTRACT FROM AUTHOR]

Published

2024

183. Tetraploidy in the Boettger's dwarf clawed frog (Pipidae: Hymenochirus boettgeri) from the Congo indicates non-conspecificity with the captive population.

Author

Gvoždík, Václav, Knytl, Martin, Zassi-Boulou, Ange-Ghislain, Fornaini, Nicola R, and Bergelová, Barbora

Subjects

*BIOLOGICAL classification, *TETRAPLOIDY, *PIPIDAE, *FROGS, *SEX chromosomes, *PLANT chromosomes, *CLAWS

Abstract

Cytogenetics can be used as a tool to study the evolution of polyploidy and taxonomy. Here we focus on aquatic African pipids, dwarf clawed frogs (Hymenochirus). Our study reveals that dwarf clawed frogs, present for decades in captivity, are best referred to as Hymenochirus sp. instead of the commonly used name ' H. boettgeri ' or sometimes ' H. curtipes '. We present the first karyotype from a morphologically identified specimen of H. boettgeri with a known locality in the north-western Congo, which is tetraploid with 2n = 36. The captive Hymenochirus species has been found diploid in previous studies with different reported chromosome numbers; here we reveal 2n = 20A + 1B chromosomes. Our findings suggest that the tetraploid H. boettgeri karyotype evolved through fusion of two biarmed chromosomes and subsequent allotetraploidization, and is functionally diploid, similar to the origin of tetraploid clawed frogs in the subgenus Xenopus. We observed the stable presence of a single B chromosome in both sexes of our individuals from the captive population of Hymenochirus sp. However, additional investigation is necessary to clarify whether there is variation in the number of A and B chromosomes among populations, individuals, and/or tissues. Further research is also needed to understand the evolution and taxonomy of the genus Hymenochirus. [ABSTRACT FROM AUTHOR]

Published

2024

184. THE EFFECTIVENESS OF COLCHICINE AND ORYZALIN ON POLYPLOIDY INDUCTION IN TEAK (Tectona grandis Linn. f.) IN VITRO.

Author

Fauzan, Yusuf Sigit A., Supriyanto, Joko Mulyono, and Teuku Tajuddin

Subjects

TEAK, POLYPLOIDY, STOMATA, CELL nuclei, ACCLIMATIZATION (Plants), COLCHICINE, SEEDLING quality, EUCALYPTUS

Abstract

Copyright of Indonesian Journal of Forestry Research is the property of Indonesian Journal of Forestry Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

185. Initial investigations into the production of triploid sunshine bass using temperature shock.

Author

Straus, David L., Abernathy, Jason W., Kelly, Anita M., Quintero, Herbert E., Freeze, T. Mike, and Williams, Ric S.

Subjects

SUNSHINE, STRIPED bass, COLD (Temperature), EGG incubation, FISH as food, FISH ponds, POLYPLOIDY

Abstract

Objective: The sunshine bass (female White Bass Morone chrysops × male Striped Bass M. saxatilis) is an important food fish raised in U.S. aquaculture. Spawning is performed by manually stripping and fertilizing White Bass eggs with Striped Bass sperm. Embryos hatch in approximately 48 h. Mature sunshine bass females can become fertile and produce viable eggs, which is problematic in commercial food‐fish production; therefore, triploid fish are desired. Methods: The present nonreplicated study incorporated three warm and three cold temperature shocks, along with three postfertilization initiation times and three exposure times for each temperature, during initial stages of incubation to induce triploidy. After exposure to temperature shocks, fertilized eggs were incubated in experimental hatching systems. The best performing cold and warm temperatures and times (and an ambient diploid control) were then used to incubate fertilized eggs in a commercial‐scale trial using standard industry practices with a single batch of eggs. Larvae were stocked at about 185,000 larvae/ha (75,000 larvae/acre) in newly filled and fertilized ponds. Fry were sampled weekly and harvested at 30 days. Result: There were 15 survivors from the pond containing fish derived from cold‐shocked fertilized eggs; these individuals were tested via Coulter Counter, and no triploids were detected. Testing of 50 survivors from the pond containing fish derived from warm‐shocked fertilized eggs indicated that 14% were triploid. Conclusion: Therefore, initial trials indicate that warm temperature shock is preferable to cold shock for inducing a greater percentage of triploid sunshine bass. Impact statementSuccessful use of temperature shock during the initial stages of fertilized egg incubation to produce triploid sunshine bass leads to a new method to improve sustainability and profitability for farmers. [ABSTRACT FROM AUTHOR]

Published

2024

186. Polyploidy and mTOR signaling: a possible molecular link.

Author

Choudhury, Debopriya, Ghosh, Dhruba, Mondal, Meghna, Singha, Didhiti, Pothuraju, Ramesh, and Malakar, Pushkar

Subjects

*POLYPLOIDY, *PROTEIN synthesis, *EUKARYOTIC cells, *CELL metabolism, *GROWTH factors

Abstract

Polyploidy is typically described as the condition wherein a cell or organism has more than two complete sets of chromosomes. Occurrence of polyploidy is a naturally occurring phenomenon in the body's development and differentiation processes under normal physiological conditions. However, in pathological conditions, the occurrence of polyploidy is documented in numerous disorders, including cancer, aging and diabetes. Due to the frequent association that the polyploidy has with these pathologies and physiological process, understanding the cause and consequences of polyploidy would be beneficial to develop potential therapeutic applications. Many of the genetic and epigenetic alterations leading to cancer, diabetes and aging are linked to signaling pathways. Nonetheless, the specific signaling pathway associated with the cause and consequences of polyploidy still remains largely unknown. Mammalian/mechanistic target of rapamycin (mTOR) plays a key role in the coordination between eukaryotic cell growth and metabolism, thereby simultaneously respond to various environmental inputs including nutrients and growth factors. Extensive research over the past two decades has established a central role for mTOR in the regulation of many fundamental cellular processes that range from protein synthesis to autophagy. Dysregulated mTOR signaling has been found to be implicated in various disease progressions. Importantly, there is a strong correlation between the hallmarks of polyploidy and dysregulated mTOR signaling. In this review, we explore and discuss the molecular connection between mTOR signaling and polyploidy along with its association with cancer, diabetes and aging. Additionally, we address some unanswered questions and provide recommendations to further advance our understanding of the intricate relationship between mTOR signaling and polyploidy. [ABSTRACT FROM AUTHOR]

Published

2024

187. Seed shape and size of Silene latifolia, differences between sexes, and influence of the parental genome in hybrids with Silene dioica.

Author

Marcel, Hubinský, José Javier, Martín-Gómez, Emilio, Cervantes, Roman, Hobza, and Jose Luis, Rodríguez Lorenzo

Subjects

PARENTAL influences, SEED size, PLANT evolution, CELL morphology, FLUORESCENCE microscopy

Abstract

Introduction: Plants undergo various natural changes that dramatically modify their genomes. One is polyploidization and the second is hybridization. Both are regarded as key factors in plant evolution and result in phenotypic differences in different plant organs. In Silene, we can find both examples in nature, and this genus has a seed shape diversity that has long been recognized as a valuable source of information for infrageneric classification. Methods: Morphometric analysis is a statistical study of shape and size and their covariations with other variables. Traditionally, seed shape description was limited to an approximate comparison with geometric figures (rounded, globular, reniform, or heart-shaped). Seed shape quantification has been based on direct measurements, such as area, perimeter, length, and width, narrowing statistical analysis. We used seed images and processed them to obtain silhouettes. We performed geometric morphometric analyses, such as similarity to geometric models and elliptic Fourier analysis, to study the hybrid offspring of S. latifolia and S. dioica. Results: We generated synthetic tetraploids of Silene latifolia and performed controlled crosses between diploid S. latifolia and Silene dioica to analyze seed morphology. After imaging capture and post-processing, statistical analysis revealed differences in seed size, but not in shape, between S. latifolia diploids and tetraploids, as well as some differences in shape among the parentals and hybrids. A detailed inspection using fluorescence microscopy allowed for the identification of shape differences in the cells of the seed coat. In the case of hybrids, differences were found in circularity and solidity. Overal seed shape is maternally regulated for both species, whereas cell shape cannot be associated with any of the sexes. Discussion: Our results provide additional tools useful for the combination of morphology with genetics, ecology or taxonomy. Seed shape is a robust indicator that can be used as a complementary tool for the genetic and phylogenetic analyses of Silene hybrid populations. [ABSTRACT FROM AUTHOR]

Published

2024

188. The antagonistic relationship between apoptosis and polyploidy in development and cancer.

Author

Herriage, Hunter C., Huang, Yi-Ting, and Calvi, Brian R.

Subjects

*POLYPLOIDY, *CARCINOGENESIS, *APOPTOSIS, *CELL cycle, *CELL death, *KNOWLEDGE gap theory

Abstract

One of the important functions of regulated cell death is to prevent cells from inappropriately acquiring extra copies of their genome, a state known as polyploidy. Apoptosis is the primary cell death mechanism that prevents polyploidy, and defects in this apoptotic response can result in polyploid cells whose subsequent error-prone chromosome segregation are a major contributor to genome instability and cancer progression. Conversely, some cells actively repress apoptosis to become polyploid as part of normal development or regeneration. Thus, although apoptosis prevents polyploidy, the polyploid state can actively repress apoptosis. In this review, we discuss progress in understanding the antagonistic relationship between apoptosis and polyploidy in development and cancer. Despite recent advances, a key conclusion is that much remains unknown about the mechanisms that link apoptosis to polyploid cell cycles. We suggest that drawing parallels between the regulation of apoptosis in development and cancer could help to fill this knowledge gap and lead to more effective therapies. [ABSTRACT FROM AUTHOR]

Published

2024

189. The Promising Potential of Triploidy in Date Palm (Phoenix dactylifera L.) Breeding.

Author

Othmani, Ahmed, Hamza, Hammadi, Kadri, Karim, Sellemi, Amel, Leus, Leen, and Werbrouck, Stefaan P. O.

Subjects

DATE palm, DATES (Fruit), FRUIT quality, SEED yield, ABIOTIC stress, POLYPLOIDY, CROSSBREEDING, PALMS

Abstract

Date palms are a vital part of oasis ecosystems and are an important source of income in arid and semi-arid areas. Crossbreeding is limited due to the long juvenile stage of date palms and their dioecious nature. The aim of this study was to create triploid date palms to obtain larger and seedless fruits and to increase resilience to abiotic stresses. A tetraploid date palm mutant was crossed with a diploid male palm, yielding hundreds of seeds suspected of containing triploid embryos. Six years after planting, four palms with confirmed triploidy reached maturity. They are phenotypically distinct from diploids, with a thicker rachis, thinner spines, wider and longer midleaf spines, and a longer apical spine. They were classified as sterile bisexual, sterile male and fertile female. One of the latter produced very tasty dates with a very small seed, which is promising for the marketability and profitability of date palm fruits. This first report on triploid date palms provides a way in which to make a significant leap forward in date palm breeding. Given the vigor and fruit quality of female triploid date palms, compared to their diploid counterparts, they will be the target of breeding programs and may spearhead new oases. [ABSTRACT FROM AUTHOR]

Published

2024

190. Introgressions lead to reference bias in wheat RNA-seq analysis.

Author

Coombes, Benedict, Lux, Thomas, Akhunov, Eduard, and Hall, Anthony

Subjects

*RNA sequencing, *GENE expression, *WHEAT, *GENOMICS, *RESEARCH personnel, *GENOMES, WHEAT genetics

Abstract

Background: RNA-seq is a fundamental technique in genomics, yet reference bias, where transcripts derived from non-reference alleles are quantified less accurately, can undermine the accuracy of RNA-seq quantification and thus the conclusions made downstream. Reference bias in RNA-seq analysis has yet to be explored in complex polyploid genomes despite evidence that they are often a complex mosaic of wild relative introgressions, which introduce blocks of highly divergent genes. Results: Here we use hexaploid wheat as a model complex polyploid, using both simulated and experimental data to show that RNA-seq alignment in wheat suffers from widespread reference bias which is largely driven by divergent introgressed genes. This leads to underestimation of gene expression and incorrect assessment of homoeologue expression balance. By incorporating gene models from ten wheat genome assemblies into a pantranscriptome reference, we present a novel method to reduce reference bias, which can be readily scaled to capture more variation as new genome and transcriptome data becomes available. Conclusions: This study shows that the presence of introgressions can lead to reference bias in wheat RNA-seq analysis. Caution should be exercised by researchers using non-sample reference genomes for RNA-seq alignment and novel methods, such as the one presented here, should be considered. [ABSTRACT FROM AUTHOR]

Published

2024

191. Origin and diversity of Capsella bursa-pastoris from the genomic point of view.

Author

Penin, Aleksey A., Kasianov, Artem S., Klepikova, Anna V., Omelchenko, Denis O., Makarenko, Maksim S., and Logacheva, Maria D.

Subjects

*BIOLOGICAL evolution, *INTROGRESSION (Genetics), *CHROMOSOMES, *RUBELLA, *POLYPLOIDY, *ARABIDOPSIS thaliana

Abstract

Background: Capsella bursa-pastoris, a cosmopolitan weed of hybrid origin, is an emerging model object for the study of early consequences of polyploidy, being a fast growing annual and a close relative of Arabidopsis thaliana. The development of this model is hampered by the absence of a reference genome sequence. Results: We present here a subgenome-resolved chromosome-scale assembly and a genetic map of the genome of Capsella bursa-pastoris. It shows that the subgenomes are mostly colinear, with no massive deletions, insertions, or rearrangements in any of them. A subgenome-aware annotation reveals the lack of genome dominance—both subgenomes carry similar number of genes. While most chromosomes can be unambiguously recognized as derived from either paternal or maternal parent, we also found homeologous exchange between two chromosomes. It led to an emergence of two hybrid chromosomes; this event is shared between distant populations of C. bursa-pastoris. The whole-genome analysis of 119 samples belonging to C. bursa-pastoris and its parental species C. grandiflora/rubella and C. orientalis reveals introgression from C. orientalis but not from C. grandiflora/rubella. Conclusions: C. bursa-pastoris does not show genome dominance. In the earliest stages of evolution of this species, a homeologous exchange occurred; its presence in all present-day populations of C. bursa-pastoris indicates on a single origin of this species. The evidence coming from whole-genome analysis challenges the current view that C. grandiflora/rubella was a direct progenitor of C. bursa-pastoris; we hypothesize that it was an extinct (or undiscovered) species sister to C. grandiflora/rubella. [ABSTRACT FROM AUTHOR]

Published

2024

192. Functional consequences of somatic polyploidy in development.

Author

Darmasaputra, Gabriella S., van Rijnberk, Lotte M., and Galli, Matilde

Subjects

*POLYPLOIDY, *CELL physiology, *CELL division, *DNA damage, *CELL size

Abstract

Polyploid cells contain multiple genome copies and arise in many animal tissues as a regulated part of development. However, polyploid cells can also arise due to cell division failure, DNA damage or tissue damage. Although polyploidization is crucial for the integrity and function of many tissues, the cellular and tissue-wide consequences of polyploidy can be very diverse. Nonetheless, many polyploid cell types and tissues share a remarkable similarity in function, providing important information about the possible contribution of polyploidy to cell and tissue function. Here, we review studies on polyploid cells in development, underlining parallel functions between different polyploid cell types, as well as differences between developmentally-programmed and stress-induced polyploidy. [ABSTRACT FROM AUTHOR]

Published

2024

193. Incorrect recombination partner associations contribute to meiotic instability of neo‐allopolyploid Arabidopsis suecica.

Author

Chéron, Floriane, Petiot, Valentine, Lambing, Christophe, White, Charles, and Serra, Heïdi

Subjects

*CHROMOSOME segregation, *HOMOLOGOUS recombination, *ARABIDOPSIS, *ARABIDOPSIS thaliana, *POLYPLOIDY, *GAMETES, *CHROMOSOMES

Abstract

Summary: Combining two or more related homoeologous genomes in a single nucleus, newly formed allopolyploids must rapidly adapt meiosis to restore balanced chromosome segregation, production of euploid gametes and fertility. The poor fertility of such neo‐allopolyploids thus strongly selects for the limitation or avoidance of genetic crossover formation between homoeologous chromosomes.In this study, we have reproduced the interspecific hybridization between Arabidopsis thaliana and Arabidopsis arenosa leading to the allotetraploid Arabidopsis suecica and have characterized the first allopolyploid meioses.First‐generation neo‐allopolyploid siblings vary considerably in fertility, meiotic behavior and levels of homoeologous recombination. We show that centromere dynamics at early meiosis is altered in synthetic neo‐allopolyploids compared with evolved A. suecica, with a significant increase in homoeologous centromere interactions at zygotene. At metaphase I, the presence of multivalents involving homoeologous chromosomes confirms that homoeologous recombination occurs in the first‐generation synthetic allopolyploid plants and this is associated with a significant reduction in homologous recombination, compared to evolved A. suecica.Together, these data strongly suggest that the fidelity of recombination partner choice, likely during the DNA invasion step, is strongly impaired during the first meiosis of neo‐allopolyploids and requires subsequent adaptation. [ABSTRACT FROM AUTHOR]

Published

2024

194. Cytogenetic Analysis of the Fish Genus Carassius Indicates Divergence, Fission, and Segmental Duplication as Drivers of Tandem Repeat and Microchromosome Evolution.

Author

Fornaini, Nicola R, Černohorská, Halina, Martins, Lívia do Vale, and Knytl, Martin

Subjects

*TANDEM repeats, *CRUCIAN carp, *GOLDFISH, *NUCLEAR DNA, *CYTOGENETICS, *CHROMOSOMES

Abstract

Fishes of the genus Carassius are useful experimental vertebrate models for the study of evolutionary biology and cytogenetics. Carassius demonstrates diverse biological characteristics, such as variation in ploidy levels and chromosome numbers, and presence of microchromosomes. Those Carassius polyploids with ≥ 150 chromosomes have microchromosomes, but the origin of microchromosomes, especially in European populations, is unknown. We used cytogenetics to study evolution of tandem repeats (U1 and U2 small nuclear DNAs and H3 histone) and microchromosomes in Carassius from the Czech Republic. We tested the hypotheses whether the number of tandem repeats was affected by polyploidization or divergence between species and what mechanism drives evolution of microchromosomes. Tandem repeats were found in tetraploid and hexaploid Carassius gibelio , and tetraploid Carassius auratus and Carassius carassius in conserved numbers, with the exception of U1 small nuclear DNA in C. auratus. This conservation indicates reduction and/or loss in the number of copies per locus in hexaploids and may have occurred by divergence rather than polyploidization. To study the evolution of microchromosomes, we used the whole microchromosome painting probe from hexaploid C. gibelio and hybridized it to tetraploid and hexaploid C. gibelio , and tetraploid C. auratus and C. carassius. Our results revealed variation in the number of microchromosomes in hexaploids and indicated that the evolution of the Carassius karyotype is governed by macrochromosome fissions followed by segmental duplication in pericentromeric areas. These are potential mechanisms responsible for the presence of microchromosomes in Carassius hexaploids. Differential efficacy of one or both of these mechanisms in different tetraploids could ensure variability in chromosome number in polyploids in general. [ABSTRACT FROM AUTHOR]

Published

2024

195. 甜瓜属异源多倍体不同倍性材料内参基因的筛选及评估.

Author

王盼乔, 虞夏清, 翟于菲, 赵勤政, 孟雅, 朱早兵, 李季, and 陈劲枫

Abstract

[Objectives]Polyploidy is widespread in plants kingdom. However, the lack of reference genes has severely limited the research progress of polyploidy-related gene expression. The present study aimed to improve the accuracy and reproducibility of gene expression analyses in polyploids by establishing a set of stable reference genes. [Methods]The abundance of 10 candidate reference genes(UBI-ep, ACT, ACT3, TUA, EF-1α, CACS, TIP41, F-box, CYP and UBQ)were compared by real-time fluorescence quantitative analysis(qPCR)at different ploidy levels of Cucumis including artificial allotetraploid, their diploid parents and triploid offsprings. The stability of these candidate reference genes expression was analyzed by geNorm and NormFinder software. Furthermore, the correlation of relative transcript abundance estimated by qPCR analysis and transcriptome sequencing(RNA-seq)data was calculated to evaluate the stability of candidate reference genes. [Results]The qPCR results showed that the reference gene CYP in cucumber had the highest expression with a CT value of 15.8, and the reference gene F-box in tetraploid material had the lowest expression with a CT value of 30.5. Four stable reference genes were selected by combining the results of geNorm and NormFinder, which were F-box, TIP41, ACT3 and ACT. Among them, F-box and TIP41 had a lower stability value M than ACT3 and ACT genes at the polyploid level, but their expression abundance were low. When ACT3 was used as the internal reference, the relative transcript abundance correlation coefficient between qPCR and RNA-seq was extremely significant(R2=0.844, P<0.01). But the correlation was minimum when F-box was an internal parameter. [Conclusions]Attention should be paid to the selection of reference genes when comparing transcript abundance across different ploidy levels. TIP41 could be selected as the internal reference gene for the low abundance expression genes of multiple ploidy materials in melon. For highly expressed genes, ACT3 could be used as an internal reference gene. [ABSTRACT FROM AUTHOR]

Published

2024

196. Potentilla thuringiaca Bernh. ex Link in Germany—A polyploid enigma.

Author

Gregor, Thomas, Korsch, Heiko, and Paule, Juraj

Subjects

*PLOIDY, *CURIOSITIES & wonders

Abstract

Plants in German states Thuringia and Bavaria previously thought to belong to Potentilla thuringiaca belong to at least three different taxa. Most populations in Thuringia and Bavaria are rather uniform and have a ploidy of 2n = 10x. These populations belong to P. thuringiaca as originally described. A lectotype and an epitype are designated for P. thuringiaca. In an isolated range in Eastern Thuringia, we found octoploids (2n = 8x), which are characterized mainly by a higher number of flowering stems. These populations are described as Potentilla saalae T. Gregor & Korsch. Decaploid (2n = 10x) plants from a very small range in the Bavarian Rhoen with more rounded central leaves are probably of independent origin. The relationship of German P. thuringiaca populations to those in the Alps, the Balkans, the Carpathians, and Eastern Europe is unresolved. [ABSTRACT FROM AUTHOR]

Published

2024

197. Why so many polyploids? Accounting for environmental stochasticity in unreduced gamete formation lowers the perceived barriers to polyploid establishment.

Author

Gerstner, Benjamin P, Wearing, Helen J, and Whitney, Kenneth D

Subjects

*GAMETOGENESIS, *ENVIRONMENTAL auditing, *POLYPLOIDY, *LOGNORMAL distribution, *GAMETES, *SENSITIVITY analysis

Abstract

While polyploids are common in nature, existing models suggest that polyploid establishment should be difficult and rare. We explore this apparent paradox by focussing on the role of unreduced gametes, as their union is the main route for the formation of neopolyploids. Production of such gametes is affected by genetic and environmental factors, resulting in variation in the formation rate of unreduced gametes (u). Once formed, neopolyploids face minority cytotype exclusion (MCE) due to a lack of viable mating opportunities. More than a dozen theoretical models have explored factors that could permit neopolyploids to overcome MCE and become established. Until now, however, none have explored variability in u and its consequences for the rate of polyploid establishment. Here, we determine the distribution that best fits the available empirical data on u. We perform a global sensitivity analysis exploring the consequences of using empirical distributions of u to investigate effects on polyploid establishment. We determined that in many cases, u is best fit by a log-normal distribution. We found environmental stochasticity in u dramatically impacts model predictions when compared to a static u. Our results help reconcile previous modelling results suggesting high barriers to the polyploid establishment with the observation that polyploids are common in nature. [ABSTRACT FROM AUTHOR]

Published

2024

198. A tetraploid-dominated cytochimera developed from a natural bud mutant of the nonapomictic mandarin variety 'Orah'.

Author

Dang, Jiangbo, Li, Cai, Sun, Danni, Guo, Qigao, and Liang, Guolu

Subjects

*POLYPLOIDY, *CITRUS, *FRUIT seeds, *BUDS, *FLOW cytometry, *PLOIDY, *ROOTSTOCKS

Abstract

Nonapomictic citrus tetraploids are desirable in citrus breeding for the production of triploid, seedless varieties, and polyploid rootstocks. However, only a few lines have been reported, and they were all generated using chemical methods. A 2x + 4 × cytochimera of the nonapomictic citrus variety 'Orah' mandarin, which developed from a bud mutant, was found due to its morphology differing from that of diploid plants and characterised via ploidy analysis combining flow cytometry and chromosome observation. The chimaera was stable, and there were 1.86–1.90 times as tetraploid cells as diploid cells. Anatomical structure observation revealed that the 'Orah' chimaera may be a periclinal chimaera with diploid cells in the L1 layer and tetraploid cells in the L2 and L3 layers. The chimaera showed some typical traits of polyploid plants, including thicker shoots, wider and thicker leaves, larger flowers and fruits, and fewer but larger seeds in fruits than in diploid plants. Almost all the seeds of the chimaera were monoembryonic. Most of the self-pollinated progenies of the chimaera were identified as tetraploids, and some triploid, pentaploid, and hexaploid plants were found. As a female, the chimaera produced allotriploids when crossed with Australian finger lime. In addition, 6 plants developed from polyembryonic seeds of the chimaera were identified as sexual tetraploid progenies with low-level recombinant genomes. Therefore, the 'Orah' 2x + 4 × chimaera can be used as a female parent to produce hybrid triploid and tetraploid citrus plants with high efficiency. Identification of the chimaera demonstrated that tetraploid citrus plants, especially nonapomictic varieties, can be generated from shoot bud mutants. [ABSTRACT FROM AUTHOR]

Published

2024

199. Autotetraploid Induction of Three A-Genome Wild Peanut Species, Arachis cardenasii , A. correntina , and A. diogoi.

Author

Suppa, Robert W., Andres, Ryan J., Dunne, Jeffrey C., Arram, Ramsey F., Morgan, Thomas B., and Chen, Hsuan

Subjects

*PEANUT breeding, *ARACHIS, *SPECIES, *PEANUTS, *SEED treatment, *ABIOTIC stress, *GENOMES

Abstract

A-genome Arachis species (AA; 2n = 2x = 20) are commonly used as secondary germplasm sources in cultivated peanut breeding, Arachis hypogaea L. (AABB; 2n = 4x = 40), for the introgression of various biotic and abiotic stress resistance genes. Genome doubling is critical to overcoming the hybridization barrier of infertility that arises from ploidy-level differences between wild germplasm and cultivated peanuts. To develop improved genome doubling methods, four trials of various concentrations of the mitotic inhibitor treatments colchicine, oryzalin, and trifluralin were tested on the seedlings and seeds of three A-genome species, A. cardenasii, A. correntina, and A. diogoi. A total of 494 seeds/seedlings were treated in the present four trials, with trials 1 to 3 including different concentrations of the three chemical treatments on seedlings, and trial 4 focusing on the treatment period of 5 mM colchicine solution treatment of seeds. A small number of tetraploids were produced from the colchicine and oryzalin gel treatments of seedlings, but all these tetraploid seedlings reverted to diploid or mixoploid states within six months of treatment. In contrast, the 6-h colchicine solution treatment of seeds showed the highest tetraploid conversion rate (6–13% of total treated seeds or 25–40% of surviving seedlings), and the tetraploid plants were repeatedly tested as stable tetraploids. In addition, visibly and statistically larger leaves and flowers were produced by the tetraploid versions of these three species compared to their diploid versions. As a result, stable tetraploid plants of each A-genome species were produced, and a 5 mM colchicine seed treatment is recommended for A-genome and related wild Arachis species genome doubling. [ABSTRACT FROM AUTHOR]

Published

2024

200. DNA Ploidy as a Potential Adjunct Prognostic Marker of Low-Risk Prostate Cancer Progression after Radical Prostatectomy.

Author

Pukl, Miha, George, Matthieu, Javanmardi, Arash, Carraro, Anita, Korbelik, Jagoda, White, Rebecca, MacAulay, Calum, Palcic, Branko, Keyes, Mira, Volavšek, Metka, and Guillaud, Martial

Subjects

*RADICAL prostatectomy, *PROGNOSIS, *PLOIDY, *PROSTATE cancer, *CANCER invasiveness, *POLYPLOIDY

Abstract

Purpose: Post prostatectomy PSA kinetics and General Grade Groups (GGG) are the strongest prognostic markers of biochemical recurrence (BCR) and prostate cancer (PCa)-specific mortality after radical prostatectomy. Despite having low-risk PCa, some patients will experience BCR, for some, clinically significant BCR. There is a need for an objective prognostic marker at the time of prostatectomy to improve risk stratification within this population. In this study, we investigated the prognostic potential of DNA ploidy. Materials and Methods: Prostatectomy samples from 97 patients with GGG1 and GGG2 with a low-risk CAPRA-S score were included in this study. PCa tissue with the worst Gleason pattern underwent tissue disaggregation, cell isolation and staining with a DNA stoichiometric stain. Using image cytometry, DNA ploidy was measured and a Ploidy Score (PS) was generated. Results: Among the 97 patients, 79 had no BCR, 18 experienced BCR, of which 14 had a PSA doubling time (PSA-DT) >1 year (low-risk group) and 4 had a PSA-DT of <1 year (high-risk group). Using Logistic regression analysis, only pathological T stage (pT) and PS independently predicted BCR with PS being the most significant (p = 0.001). The number of aneuploid cells was significantly higher in the high-risk group compared to the other groups (p = 1.7x10-11). PS combined with GGG diagnosis further stratified risk groups of biochemical recurrence free survival within CAPRA-S low-risk cohort. Conclusion: DNA ploidy is an independent prognostic marker of BCR in low-risk PCa after radical prostatectomy, which could early on identify potentially aggressive PCa recurrences and introduce a more personalized approach to salvage treatments. [ABSTRACT FROM AUTHOR]

Published

2024