Your search keyword '"Novikova, Polina"' showing total 41 results

1. Seagrass genomes reveal ancient polyploidy and adaptations to the marine environment

Author

Ma, Xiao, Vanneste, Steffen, Chang, Jiyang, Ambrosino, Luca, Barry, Kerrie, Bayer, Till, Bobrov, Alexander A, Boston, LoriBeth, Campbell, Justin E, Chen, Hengchi, Chiusano, Maria Luisa, Dattolo, Emanuela, Grimwood, Jane, He, Guifen, Jenkins, Jerry, Khachaturyan, Marina, Marín-Guirao, Lázaro, Mesterházy, Attila, Muhd, Danish-Daniel, Pazzaglia, Jessica, Plott, Chris, Rajasekar, Shanmugam, Rombauts, Stephane, Ruocco, Miriam, Scott, Alison, Tan, Min Pau, Van de Velde, Jozefien, Vanholme, Bartel, Webber, Jenell, Wong, Li Lian, Yan, Mi, Sung, Yeong Yik, Novikova, Polina, Schmutz, Jeremy, Reusch, Thorsten BH, Procaccini, Gabriele, Olsen, Jeanine L, and Van de Peer, Yves

Subjects

Biological Sciences, Ecology, Genetics, Life Below Water, Climate Action, Alismatales, Zosteraceae, Ecosystem, Plant Biology, Crop and Pasture Production, Plant biology

Abstract

We present chromosome-level genome assemblies from representative species of three independently evolved seagrass lineages: Posidonia oceanica, Cymodocea nodosa, Thalassia testudinum and Zostera marina. We also include a draft genome of Potamogeton acutifolius, belonging to a freshwater sister lineage to Zosteraceae. All seagrass species share an ancient whole-genome triplication, while additional whole-genome duplications were uncovered for C. nodosa, Z. marina and P. acutifolius. Comparative analysis of selected gene families suggests that the transition from submerged-freshwater to submerged-marine environments mainly involved fine-tuning of multiple processes (such as osmoregulation, salinity, light capture, carbon acquisition and temperature) that all had to happen in parallel, probably explaining why adaptation to a marine lifestyle has been exceedingly rare. Major gene losses related to stomata, volatiles, defence and lignification are probably a consequence of the return to the sea rather than the cause of it. These new genomes will accelerate functional studies and solutions, as continuing losses of the 'savannahs of the sea' are of major concern in times of climate change and loss of biodiversity.

Published

2024

2. Repeated patterns of gamma-ray flares suggest structured jets of blazars as likely neutrino sources

Author

Novikova, Polina, Shishkina, Ekaterina, and Blinov, Dmitry

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Fermi-LAT observations provide continuous and regularly-sampled measurements of gamma-ray photon flux for hundreds of blazars. Many of these light curves, spanning almost 15 years, have been thoroughly examined for periodicity in multiple studies. However, the possibility that blazars may exhibit irregularly repeating flaring patterns in their gamma-ray light curves has not been systematically explored. In this study, we aim to find repeating episodes of flaring activity in the 100 brightest blazars using Fermi-LAT light curves with various integration times. We use a Bayesian Blocks representation to convert the time series into strings of symbols and search for repeating sub-strings using a fuzzy search algorithm. As a result, we identify 27 repeated episodes in the gamma-ray light curves of 10 blazars. We find that the patterns are most likely produced in structured jets composed of a fast spine and a slower sheath. When individual emission features propagate in the spine, they scatter seed photons produced in the non-uniform sheath through the inverse Compton mechanism, resulting in a set of gamma-ray flares with a similar profile every such passage. Additionally, we explore the theoretically-predicted possibility that the spine-sheath structure facilitates the production of high-energy neutrinos in blazar jets. Using the catalogue of track-like events detected by the IceCube neutrino telescope, we find evidence supporting this hypothesis at a $2.8\sigma$ significance level., Comment: Published, PR https://vo.astro.spbu.ru/964/

Published

2023

3. Spatio-functional organization in virocells of small uncultivated archaea from the deep biosphere

Author

Banas, Indra, Esser, Sarah P., Turzynski, Victoria, Soares, André, Novikova, Polina, May, Patrick, Moraru, Cristina, Hasenberg, Mike, Rahlff, Janina, Wilmes, Paul, Klingl, Andreas, and Probst, Alexander J.

Published

2023

4. Enhanced N-Glycan Profiling of Therapeutic Monoclonal Antibodies through the Application of Upper-Hinge Middle-Up Level LC-HRMS Analysis.

Author

Mesonzhnik, Natalia, Belushenko, Anton, Novikova, Polina, Kukharenko, Alexey, and Afonin, Mikhail

Subjects

MASS spectrometry, MONOCLONAL antibodies, QUALITY control, IMMUNOGLOBULIN G, ENZYMES

Abstract

Therapeutic monoclonal antibodies (mAbs) are crucial in modern medicine due to their effectiveness in treating various diseases. However, the structural complexity of mAbs, particularly their glycosylation patterns, presents challenges for quality control and biosimilarity assessment. This study explores the use of upper-hinge middle-up (UHMU)-level ultra-high-performance liquid chromatography–high-resolution mass spectrometry (LC-HRMS) analysis to improve N-glycan profiling of mAbs. Two specific enzymes, known as IgG degradation enzymes (IGDEs), were used to selectively cleave therapeutic mAbs above the hinge region to separate antibody subunits for further Fc glycan analysis by means of the UHMU/LC-HRMS workflow. The complexity of the mass spectra of IGDEs-digested mAbs was significantly reduced compared to the intact MS level, enabling reliable assignment and relative quantitation of paired Fc glycoforms. The results of the UHMU/LC-HRMS analysis of nine approved therapeutics highlight the significance of this approach for in-depth glycoform profiling. [ABSTRACT FROM AUTHOR]

Published

2024

5. Functional prediction of proteins from the human gut archaeome

Author

Novikova, Polina V., Busi, Susheel Bhanu, Probst, Alexander J., May, Patrick, Wilmes, Paul, Novikova, Polina V., Busi, Susheel Bhanu, Probst, Alexander J., May, Patrick, and Wilmes, Paul

Abstract

The human gastrointestinal tract contains diverse microbial communities, including archaea. Among them, Methanobrevibacter smithii represents a highly active and clinically relevant methanogenic archaeon, being involved in gastrointestinal disorders, such as inflammatory bowel disease and obesity. Herein, we present an integrated approach using sequence and structure information to improve the annotation of M. smithii proteins using advanced protein structure prediction and annotation tools, such as AlphaFold2, trRosetta, ProFunc, and DeepFri. Of an initial set of 873 481 archaeal proteins, we found 707 754 proteins exclusively present in the human gut. Having analysed archaeal proteins together with 87 282 994 bacterial proteins, we identified unique archaeal proteins and archaeal–bacterial homologs. We then predicted and characterized functional domains and structures of 73 unique and homologous archaeal protein clusters linked the human gut and M. smithii. We refined annotations based on the predicted structures, extending existing sequence similarity-based annotations. We identified gut-specific archaeal proteins that may be involved in defense mechanisms, virulence, adhesion, and the degradation of toxic substances. Interestingly, we identified potential glycosyltransferases that could be associated with N-linked and O-glycosylation. Additionally, we found preliminary evidence for interdomain horizontal gene transfer between Clostridia species and M. smithii, which includes sporulation Stage V proteins AE and AD. Our study broadens the understanding of archaeal biology, particularly M. smithii, and highlights the importance of considering both sequence and structure for the prediction of protein function.

Published

2024

6. Functional prediction of proteins from the human gut archaeome

Author

Novikova, Polina Valerevna, primary, Busi, Susheel Bhanu, additional, Probst, Alexander Josef, additional, May, Patrick, additional, and Wilmes, Paul, additional

Published

2024

7. Epigenomic Diversity in a Global Collection of Arabidopsis thaliana Accessions

Author

Kawakatsu, Taiji, Huang, Shao-shan Carol, Jupe, Florian, Sasaki, Eriko, Schmitz, Robert J, Urich, Mark A, Castanon, Rosa, Nery, Joseph R, Barragan, Cesar, He, Yupeng, Chen, Huaming, Dubin, Manu, Lee, Cheng-Ruei, Wang, Congmao, Bemm, Felix, Becker, Claude, O’Neil, Ryan, O’Malley, Ronan C, Quarless, Danjuma X, Consortium, The 1001 Genomes, Alonso-Blanco, Carlos, Andrade, Jorge, Bergelson, Joy, Borgwardt, Karsten, Chae, Eunyoung, Dezwaan, Todd, Ding, Wei, Ecker, Joseph R, Expósito-Alonso, Moisés, Farlow, Ashley, Fitz, Joffrey, Gan, Xiangchao, Grimm, Dominik G, Hancock, Angela, Henz, Stefan R, Holm, Svante, Horton, Matthew, Jarsulic, Mike, Kerstetter, Randall A, Korte, Arthur, Korte, Pamela, Lanz, Christa, Lee, Chen-Ruei, Meng, Dazhe, Michael, Todd P, Mott, Richard, Muliyati, Ni Wayan, Nägele, Thomas, Nagler, Matthias, Nizhynska, Viktoria, Nordborg, Magnus, Novikova, Polina, Picó, F Xavier, Platzer, Alexander, Rabanal, Fernando A, Rodriguez, Alex, Rowan, Beth A, Salomé, Patrice A, Schmid, Karl, Seren, Ümit, Sperone, Felice Gianluca, Sudkamp, Mitchell, Svardal, Hannes, Tanzer, Matt M, Todd, Donald, Volchenboum, Samuel L, Wang, George, Wang, Xi, Weckwerth, Wolfram, Weigel, Detlef, Zhou, Xuefeng, and Schork, Nicholas J

Subjects

Human Genome, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Arabidopsis, DNA Methylation, Epigenesis, Genetic, Epigenomics, Gene Expression Regulation, Plant, Genome, Plant, Transcriptome, Genomes Consortium, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

The epigenome orchestrates genome accessibility, functionality, and three-dimensional structure. Because epigenetic variation can impact transcription and thus phenotypes, it may contribute to adaptation. Here, we report 1,107 high-quality single-base resolution methylomes and 1,203 transcriptomes from the 1001 Genomes collection of Arabidopsis thaliana. Although the genetic basis of methylation variation is highly complex, geographic origin is a major predictor of genome-wide DNA methylation levels and of altered gene expression caused by epialleles. Comparison to cistrome and epicistrome datasets identifies associations between transcription factor binding sites, methylation, nucleotide variation, and co-expression modules. Physical maps for nine of the most diverse genomes reveal how transposons and other structural variants shape the epigenome, with dramatic effects on immunity genes. The 1001 Epigenomes Project provides a comprehensive resource for understanding how variation in DNA methylation contributes to molecular and non-molecular phenotypes in natural populations of the most studied model plant.

Published

2016

8. Assessment of water quality of Shlinsky reservoir by hydrochemical indicators

Author

Lazareva, Galina A., primary and Novikova, Polina V., additional

Published

2023

9. Genome of Crucihimalaya himalaica , a close relative of Arabidopsis , shows ecological adaptation to high altitude

Author

Zhang, Ticao, Qiao, Qin, Novikova, Polina Yu., Wang, Qia, Yue, Jipei, Guan, Yanlong, Ming, Shengping, Liu, Tianmeng, De, Ji, Liu, Yixuan, Al-Shehbaz, Ihsan A., Sun, Hang, Van Montagu, Marc, Huang, Jinling, Van de Peer, Yves, and Qiong, La

Published

2019

10. Repeated patterns of gamma-ray flares suggest structured jets of blazars as likely neutrino sources

Author

Novikova, Polina, primary, Shishkina, Ekaterina, additional, and Blinov, Dmitry, additional

Published

2023

11. Cycles of satellite and transposon evolution in Arabidopsis centromeres

Author

Wlodzimierz, Piotr, primary, Rabanal, Fernando A., additional, Burns, Robin, additional, Naish, Matthew, additional, Primetis, Elias, additional, Scott, Alison, additional, Mandáková, Terezie, additional, Gorringe, Nicola, additional, Tock, Andrew J., additional, Holland, Daniel, additional, Fritschi, Katrin, additional, Habring, Anette, additional, Lanz, Christa, additional, Patel, Christie, additional, Schlegel, Theresa, additional, Collenberg, Maximilian, additional, Mielke, Miriam, additional, Nordborg, Magnus, additional, Roux, Fabrice, additional, Shirsekar, Gautam, additional, Alonso-Blanco, Carlos, additional, Lysak, Martin A., additional, Novikova, Polina Y., additional, Bousios, Alexandros, additional, Weigel, Detlef, additional, and Henderson, Ian R., additional

Published

2023

12. Repeated patterns of gamma-ray flares reveal structured jets of blazars as likely neutrino sources

Author

Novikova, Polina, Shishkina, Ekaterina, and Blinov, Dmitry

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Cosmology and Nongalactic Astrophysics (astro-ph.CO), FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Fermi-LAT observations provide continuous and regularly-sampled measurements of gamma-ray photon flux for hundreds of blazars. Many of these light curves, spanning almost 15 years, have been thoroughly examined for periodicity in multiple studies. However, the possibility that blazars may exhibit irregularly repeating flaring patterns in their gamma-ray light curves has not been systematically explored. In this study, we aim to find repeating episodes of flaring activity in the 100 brightest blazars using Fermi-LAT light curves with various integration times. We use a Bayesian Blocks representation to convert the time series into strings of symbols and search for repeating sub-strings using a fuzzy search algorithm. As a result, we identify 27 repeated episodes in the gamma-ray light curves of 10 blazars. We find that the patterns are most likely produced in structured jets composed of a fast spine and a slower sheath. When individual emission features propagate in the spine, they scatter seed photons produced in the non-uniform sheath through the inverse Compton mechanism, resulting in a set of gamma-ray flares with a similar profile every such passage. Additionally, we explore the theoretically-predicted possibility that the spine-sheath structure facilitates the production of high-energy neutrinos in blazar jets. Using the catalogue of track-like events detected by the IceCube neutrino telescope, we find evidence supporting this hypothesis at a $3.5\sigma$ significance level., Comment: Submitted

Published

2023

13. The gut microbiome molecular complex in human health and disease

Author

Wilmes, Paul, Martin-Gallausiaux, Camille, Ostaszewski, Marek, Aho, Velma, Novikova, Polina, Laczny, Cedric Christian, Schneider, Jochen, and Luxembourg Centre for Systems Biomedicine (LCSB): Eco-Systems Biology (Wilmes Group) [research center]

Subjects

Microbiologie [F11] [Sciences du vivant], inflammation, microbiome, Microbiology [F11] [Life sciences], biomolecules

Abstract

The human gut microbiome produces a functional complex of biomolecules, including nucleic acids, (poly) peptides, structural molecules, and metabolites. This impacts human physiology in multiple ways, especially by triggering inflammatory pathways in disease. At present, much remains to be learned about the identity of key effectors and their causal roles.

Published

2022

14. The gut microbiome molecular complex in human health and disease

Author

Wilmes, Paul, primary, Martin-Gallausiaux, Camille, additional, Ostaszewski, Marek, additional, Aho, Velma T.E., additional, Novikova, Polina V., additional, Laczny, Cédric C., additional, and Schneider, Jochen G., additional

Published

2022

15. Transition to Self-compatibility Associated With Dominant S-allele in a Diploid Siberian Progenitor of Allotetraploid Arabidopsis kamchatica Revealed by Arabidopsis lyrata Genomes.

Author

Kolesnikova, Uliana K, Scott, Alison Dawn, Velde, Jozefien D Van de, Burns, Robin, Tikhomirov, Nikita P, Pfordt, Ursula, Clarke, Andrew C, Yant, Levi, Seregin, Alexey P, Vekemans, Xavier, Laurent, Stefan, and Novikova, Polina Yu

Subjects

ARABIDOPSIS, PLOIDY, GENETIC mutation, SPECIES

Abstract

A transition to selfing can be beneficial when mating partners are scarce, for example, due to ploidy changes or at species range edges. Here, we explain how self-compatibility evolved in diploid Siberian Arabidopsis lyrata , and how it contributed to the establishment of allotetraploid Arabidopsis kamchatica. First, we provide chromosome-level genome assemblies for two self-fertilizing diploid A. lyrata accessions, one from North America and one from Siberia, including a fully assembled S -locus for the latter. We then propose a sequence of events leading to the loss of self-incompatibility in Siberian A. lyrata , date this independent transition to ∼90 Kya, and infer evolutionary relationships between Siberian and North American A. lyrata , showing an independent transition to selfing in Siberia. Finally, we provide evidence that this selfing Siberian A. lyrata lineage contributed to the formation of the allotetraploid A. kamchatica and propose that the selfing of the latter is mediated by the loss-of-function mutation in a dominant S -allele inherited from A. lyrata. [ABSTRACT FROM AUTHOR]

Published

2023

16. Human mesenchymal stem cells in spheroids improve fertility in model animals with damaged endometrium

Author

Domnina, Alisa, Novikova, Polina, Obidina, Julia, Fridlyanskaya, Irina, Alekseenko, Larisa, Kozhukharova, Irina, Lyublinskaya, Olga, Zenin, Valeriy, and Nikolsky, Nikolay

Published

2018

17. Plant genetic effects on microbial hubs impact host fitness in repeated field trials

Author

Brachi, Benjamin, primary, Filiault, Daniele, additional, Whitehurst, Hannah, additional, Darme, Paul, additional, Le Gars, Pierre, additional, Le Mentec, Marine, additional, Morton, Timothy C., additional, Kerdaffrec, Envel, additional, Rabanal, Fernando, additional, Anastasio, Alison, additional, Box, Mathew S., additional, Duncan, Susan, additional, Huang, Feng, additional, Leff, Riley, additional, Novikova, Polina, additional, Perisin, Matthew, additional, Tsuchimatsu, Takashi, additional, Woolley, Roderick, additional, Dean, Caroline, additional, Nordborg, Magnus, additional, Holm, Svante, additional, and Bergelson, Joy, additional

Published

2022

18. SNP Detection in Pinus pinaster Transcriptome and Association with Resistance to Pinewood Nematode

Author

Modesto, Inês, primary, Inácio, Vera, additional, Novikova, Polina, additional, Carrasquinho, Isabel, additional, Van de Peer, Yves, additional, and Miguel, Célia M., additional

Published

2022

19. The gut microbiome molecular complex in human health and disease

Author

Luxembourg Centre for Systems Biomedicine (LCSB): Eco-Systems Biology (Wilmes Group) [research center], Wilmes, Paul, Martin-Gallausiaux, Camille, Ostaszewski, Marek, Aho, Velma, Novikova, Polina, Laczny, Cedric Christian, Schneider, Jochen, Luxembourg Centre for Systems Biomedicine (LCSB): Eco-Systems Biology (Wilmes Group) [research center], Wilmes, Paul, Martin-Gallausiaux, Camille, Ostaszewski, Marek, Aho, Velma, Novikova, Polina, Laczny, Cedric Christian, and Schneider, Jochen

Abstract

The human gut microbiome produces a functional complex of biomolecules, including nucleic acids, (poly) peptides, structural molecules, and metabolites. This impacts human physiology in multiple ways, especially by triggering inflammatory pathways in disease. At present, much remains to be learned about the identity of key effectors and their causal roles.

Published

2022

20. Determinants of aid allocations on UNDP 16 projects in countries with armed conflict or political instability

Author

Novikova, Polina and Garcia, Roberto Javier

Subjects

Social science: 200::Economics: 210::Economics: 212 [VDP], SDG 16 projects, UNDP, Aid allocations

Abstract

The United Nations (UN) is a multilateral organization that addresses issues that transcend national boundaries. The UN Membership approved in 2015 “The 2030 Agenda for Sustainable Development”, which is built on 17 Sustainable Development Goals (SDGs) that serve as the guidelines to all countries - developed and developing - in a global partnership towards achieving a better world (UN, 2022). The UN Development Program (UNDP) is one of the 15 UN agencies that focus on international development to achieve the SDGs. The thesis studies factors determining UNDP SDG 16 (Peace, Justice and Strong Institutions) aid allocations for projects in countries with armed conflict or political instability (UNDP, 2019b). The topic’s relevance lies in the UNDP`s mission statement: “to eradicate poverty and reduce inequality. We help countries to develop policies, leadership skills, partnering abilities, institutional capabilities, and to build resilience to achieve the Sustainable Development Goals.” Thus, the multilateral organization’s transparency and criteria affecting the decision-making process behind the allocation of project funds is an important topic to research. The objective is to determine the factors that affect aid allocations under SDG 16 related to projects in countries with armed conflict or political instability during 2016-20. The research targets aid allocations for projects for peaceful resolution in countries with armed conflict or political instability as a dependent variable relying on the indicators of the recipient country`s requirements based on GDP per capita, number of victims during the years of conflict, and democracy indexes, etc. A panel data set of 150 observations covering 2016-2020 on 30 recipient countries and ten donor countries was collected to build an econometric model (fixed-effects and random-effects models), together with partial qualitative analysis on the data-generating stage to define the factors affecting the UNDP project aid allocations to recipient countries under SDG 16. The key findings of the thesis suggest, as expected, that there is insufficient understanding of the decision-making process in the UNDP allocation system. According to findings, the poorer countries with the larger territory and smaller populations tend to be chosen to receive aid for SDG 16 projects from the UNDP. The results suggest that conflict-specific variables, such as civilian casualties and the size of the country affected by conflict or political instability are considered during the aid allocation decision-making process, which was to be expected based on the specifics of the projects analyzed. Moreover, there is evidence, through both qualitative and quantitative methods to suggest that US interest levels in the country in conflict (e.g., Afghanistan) have a major influence on aid allocation within UNDP SDG 16 projects. Nevertheless, there is no evidence in the data that suggest there is an influence of the amount of monetary contribution by the top 10 donor countries on the aid allocation process for SDG 16 projects. M-ECON

Published

2022

21. Unification of functional annotation descriptions using text mining

Author

Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center], Luxembourg Centre for Systems Biomedicine (LCSB): Eco-Systems Biology (Wilmes Group) [research center], FNR PRIDE17/11823097 [sponsor], Teixeira Queiros, Pedro, Novikova, Polina, Wilmes, Paul, May, Patrick, Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center], Luxembourg Centre for Systems Biomedicine (LCSB): Eco-Systems Biology (Wilmes Group) [research center], FNR PRIDE17/11823097 [sponsor], Teixeira Queiros, Pedro, Novikova, Polina, Wilmes, Paul, and May, Patrick

Abstract

A common approach to genome annotation involves the use of homology-based tools for the prediction of the functional role of proteins. The quality of functional annotations is dependent on the reference data used, as such, choosing the appropriate sources is crucial. Unfortunately, no single reference data source can be universally considered the gold standard, thus using multiple references could potentially increase annotation quality and coverage. However, this comes with challenges, particularly due to the introduction of redundant and exclusive annotations. Through text mining it is possible to identify highly similar functional descriptions, thus strengthening the confidence of the final protein functional annotation and providing a redundancy-free output. Here we present UniFunc, a text mining approach that is able to detect similar functional descriptions with high precision. UniFunc was built as a small module and can be independently used or integrated into protein function annotation pipelines. By removing the need to individually analyse and compare annotation results, UniFunc streamlines the complementary use of multiple reference datasets.

Published

2021

22. Polyploidy breaks speciation barriers in Australian burrowing frogs Neobatrachus

Author

Novikova, Polina Yu., primary, Brennan, Ian G., additional, Booker, William, additional, Mahony, Michael, additional, Doughty, Paul, additional, Lemmon, Alan R., additional, Moriarty Lemmon, Emily, additional, Roberts, J. Dale, additional, Yant, Levi, additional, Van de Peer, Yves, additional, Keogh, J. Scott, additional, and Donnellan, Stephen C., additional

Published

2020

23. Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands

Author

Bossuyt, Franky, primary, Schulte, Lisa M, additional, Maex, Margo, additional, Janssenswillen, Sunita, additional, Novikova, Polina Yu, additional, Biju, S D, additional, Van de Peer, Yves, additional, Matthijs, Severine, additional, Roelants, Kim, additional, Martel, An, additional, and Van Bocxlaer, Ines, additional

Published

2019

24. Plant genes influence microbial hubs that shape beneficial leaf communities

Author

Brachi, Benjamin, Filiault, Daniele, Darme, Paul, Mentec, Marine Le, Kerdaffrec, Envel, Rabanal, Fernando, Anastasio, Alison, Box, Matthew, Duncan, Susan, Morton, Timothy, Novikova, Polina, Perisin, Matthew, Tsuchimatsu, Takashi, Woolley, Roderick, Yu, Man, Dean, Caroline, Nordborg, Magnus, Holm, Svante, and Bergelson, Joy

Abstract

Although the complex interactions between hosts and microbial associates are increasingly well documented, we still know little about how and why hosts shape microbial communities in nature. We characterized the leaf microbiota within 200 clonal accessions in eight field experiments and detected effects of both local environment and host genotype on community structure. Within environments, hosts’ genetics preferentially associate with a core of ubiquitous microbial hubs that, in turn, structure the community. These microbial hubs correlate with host performance, and a GWAS revealed strong candidate genes for the host factors impacting heritable hubs. Our results reveal how selection may act to enhance fitness through microbial associations and bolster the possibility of enhancing crop performance through these host factors. Text Hosts harbor complex microbial communities that are thought to impact health and development 1 . This is best studied in human hosts for which the microbiota has been implicated in a variety of diseases including obesity and cancer 2 . Efforts are thus underway to determine the host factors shaping these resident populations 3,4 and to use next-generation probiotics to inhibit colonization by pathogens 5 . Similarly, in agriculture, there is great hope of shaping the composition of the microbiota in order to mitigate disease and increase crop yield in a sustainable fashion. Indeed, the Food and Agriculture Organization of the United Nations has made the use of biological control and growth promoting microbial associations a clear priority for improving food production 6 . Plant associated microbes can be beneficial in many ways including improving access to nutrients, activating or priming the immune system, and competing with pathogens. For example, seeds inoculated with a combination of naturally occurring microbes were recently found to be protected from a sudden-wilt disease that emerged after continuous cropping 7 . Thus, it would be advantageous to breed crops that promote the growth of beneficial microbes under a variety of field conditions, a prospect that is made more likely by the demonstration of host genotypic effects on their microbiota 8–10 . That said, microbial communities are complex entities that are influenced by the combined impact of host factors, environment and microbe-microbe interactions 11 . As a consequence, the extent to which host plants can control microbial communities to their advantage, especially in a natural context, is unclear. Here, we combine large scale field experiments of plant genotypes grown in their natural environments, extensive microbial community analysis, and genome-wide association mapping to (i) disentangle how the influence of the host is distributed among microbial community members, and thus how host variation shapes the microbiota, (ii) propose plant genes and functions that correlate with variation in the microbiota across environmental conditions, and (iii) examine how key microbial associates impact plant fitness. Our motivation is to further the goal of generating plants with an enhanced ability to host beneficial microbial communities.

Published

2017

25. Genome Sequencing Reveals the Origin of the Allotetraploid Arabidopsis suecica

Author

Novikova, Polina Yu, Tsuchimatsu, Takashi, Simon, Samson, Nizhynska, Viktoria, Voronin, Viktor, Burns, Robin, Fedorenko, Olga M., Holm, Svante, Saell, Torbjoern, Prat, Elisa, Marande, William, Castric, Vincent, Nordborg, Magnus, Novikova, Polina Yu, Tsuchimatsu, Takashi, Simon, Samson, Nizhynska, Viktoria, Voronin, Viktor, Burns, Robin, Fedorenko, Olga M., Holm, Svante, Saell, Torbjoern, Prat, Elisa, Marande, William, Castric, Vincent, and Nordborg, Magnus

Abstract

Polyploidy is an example of instantaneous speciation when it involves the formation of a new cytotype that is incompatible with the parental species. Because new polyploid individuals are likely to be rare, establishment of a new species is unlikely unless polyploids are able to reproduce through self-fertilization (selfing), or asexually. Conversely, selfing (or asexuality) makes it possible for polyploid species to originate from a single individual-a bona fide speciation event. The extent to which this happens is not known. Here, we consider the origin of Arabidopsis suecica, a selfing allopolyploid between Arabidopsis thaliana and Arabidopsis arenosa, which has hitherto been considered to be an example of a unique origin. Based on whole-genome re-sequencing of 15 natural A. suecica accessions, we identify ubiquitous shared polymorphism with the parental species, and hence conclusively reject a unique origin in favor of multiple founding individuals. We further estimate that the species originated after the last glacial maximum in Eastern Europe or central Eurasia (rather than Sweden, as the name might suggest). Finally, annotation of the self-incompatibility loci in A. suecica revealed that both loci carry non-functional alleles. The locus inherited from the selfing A. thaliana is fixed for an ancestral non-functional allele, whereas the locus inherited from the outcrossing A. arenosa is fixed for a novel loss-offunction allele. Furthermore, the allele inherited from A. thaliana is predicted to transcriptionally silence the allele inherited from A. arenosa, suggesting that loss of self-incompatibility may have been instantaneous.

Published

2017

26. Unstable Inheritance of 45S rRNA Genes inArabidopsis thaliana

Author

Rabanal, Fernando A, primary, Nizhynska, Viktoria, additional, Mandáková, Terezie, additional, Novikova, Polina Yu, additional, Lysak, Martin A, additional, Mott, Richard, additional, and Nordborg, Magnus, additional

Published

2017

27. On the post-glacial spread of human commensal Arabidopsis thaliana

Author

Lee, Cheng-Ruei, primary, Svardal, Hannes, additional, Farlow, Ashley, additional, Exposito-Alonso, Moises, additional, Ding, Wei, additional, Novikova, Polina, additional, Alonso-Blanco, Carlos, additional, Weigel, Detlef, additional, and Nordborg, Magnus, additional

Published

2017

28. Genome sequencing reveals the origin of the allotetraploid Arabidopsis suecica

Author

Yu. Novikova, Polina, primary, Tsuchimatsu, Takashi, additional, Simon, Samson, additional, Nizhynska, Viktoria, additional, Voronin, Viktor, additional, Burns, Robin, additional, Fedorenko, Olga M., additional, Holm, Svante, additional, Säll, Torbjörn, additional, Prat, Elisa, additional, Marande, William, additional, Castric, Vincent, additional, and Nordborg, Magnus, additional

Published

2017

29. Exogenous selection rather than cytonuclear incompatibilities shapes asymmetrical fitness of reciprocal Arabidopsis hybrids

Author

Muir, Graham, Ruiz-Duarte, Paola, Hohmann, Nora, Mable, Barbara K., Novikova, Polina, Schmickl, Roswitha, Guggisberg, Alessia, and Marcus Koch

Subjects

Darwin's corollary to Haldane's rule, hybrid inviability, postzygotic selection, cytonuclear incompatibilities, Asymmetric reproductive isolation, Cytonuclear incompatibilities, Hybrid inviability, Postzygotic selection, Original Research

Abstract

Reciprocal crosses between species often display an asymmetry in the fitness of F1 hybrids. This pattern, referred to as isolation asymmetry or Darwin's corollary to Haldane's rule, is a general feature of reproductive isolation in plants, yet factors determining its magnitude and direction remain unclear. We evaluated reciprocal species crosses between two naturally hybridizing diploid species of Arabidopsis to assess the degree of isolation asymmetry at different postmating life stages. We found that pollen from Arabidopsis arenosa will usually fertilize ovules from Arabidopsis lyrata; the reverse receptivity being less complete. Maternal A. lyrata parents set more F1 hybrid seed, but germinate at lower frequency, reversing the asymmetry. As predicted by theory, A. lyrata (the maternal parent with lower seed viability in crosses) exhibited accelerated chloroplast evolution, indicating that cytonuclear incompatibilities may play a role in reproductive isolation. However, this direction of asymmetrical reproductive isolation is not replicated in natural suture zones, where delayed hybrid breakdown of fertility at later developmental stages, or later‐acting selection against A. arenosa maternal hybrids (unrelated to hybrid fertility, e.g., substrate adaptation) may be responsible for an excess of A. lyrata maternal hybrids. Exogenous selection rather than cytonuclear incompatibilities thus shapes the asymmetrical postmating isolation in nature., Ecology and Evolution, 5 (8), ISSN:2045-7758

Published

2015

30. 1,135 Genomes Reveal the Global Pattern of Polymorphism in Arabidopsis thaliana

Author

Alonso-Blanco, Carlos, Andrade, Jorge, Becker, Claude, Bemm, Felix, Bergelson, Joy, Borgwardt, Karsten M., Cao, Jun, Chae, Eunyoung, Dezwaan, Todd M., Ding, Wei, Ecker, Joseph R., Exposito-Alonso, Moises, Farlow, Ashley, Fitz, Joffrey, Gan, Xiangchao, Grimm, Dominik G., Hancock, Angela M., Henz, Stefan R., Holm, Svante, Horton, Matthew, Jarsulic, Mike, Kerstetter, Randall A., Korte, Arthur, Korte, Pamela, Lanz, Christa, Lee, Cheng-Ruei, Meng, Dazhe, Michael, Todd P., Mott, Richard, Muliyati, Ni Wayan, Nägele, Thomas, Nagler, Matthias, Nizhynska, Viktoria, Nordborg, Magnus, Novikova, Polina Yu., Picó, F. Xavier, Platzer, Alexander, Rabanal, Fernando A., Rodriguez, Alex, Rowan, Beth A., Salomé, Patrice A., Schmid, Karl J., Schmitz, Robert J., Seren, Ümit, Sperone, Felice Gianluca, Sudkamp, Mitchell, Svardal, Hannes, Tanzer, Matt M., Todd, Donald, Volchenboum, Samuel L., Wang, Congmao, Wang, George, Wang, Xi, Weckwerth, Wolfram, Weigel, Detlef, Zhou, Xuefeng, Alonso-Blanco, Carlos, Andrade, Jorge, Becker, Claude, Bemm, Felix, Bergelson, Joy, Borgwardt, Karsten M., Cao, Jun, Chae, Eunyoung, Dezwaan, Todd M., Ding, Wei, Ecker, Joseph R., Exposito-Alonso, Moises, Farlow, Ashley, Fitz, Joffrey, Gan, Xiangchao, Grimm, Dominik G., Hancock, Angela M., Henz, Stefan R., Holm, Svante, Horton, Matthew, Jarsulic, Mike, Kerstetter, Randall A., Korte, Arthur, Korte, Pamela, Lanz, Christa, Lee, Cheng-Ruei, Meng, Dazhe, Michael, Todd P., Mott, Richard, Muliyati, Ni Wayan, Nägele, Thomas, Nagler, Matthias, Nizhynska, Viktoria, Nordborg, Magnus, Novikova, Polina Yu., Picó, F. Xavier, Platzer, Alexander, Rabanal, Fernando A., Rodriguez, Alex, Rowan, Beth A., Salomé, Patrice A., Schmid, Karl J., Schmitz, Robert J., Seren, Ümit, Sperone, Felice Gianluca, Sudkamp, Mitchell, Svardal, Hannes, Tanzer, Matt M., Todd, Donald, Volchenboum, Samuel L., Wang, Congmao, Wang, George, Wang, Xi, Weckwerth, Wolfram, Weigel, Detlef, and Zhou, Xuefeng

Abstract

Arabidopsis thaliana serves as a model organism for the study of fundamental physiological, cellular, and molecular processes. It has also greatly advanced our understanding of intraspecific genome variation. We present a detailed map of variation in 1,135 high-quality re-sequenced natural inbred lines representing the native Eurasian and North African range and recently colonized North America. We identify relict populations that continue to inhabit ancestral habitats, primarily in the Iberian Peninsula. They have mixed with a lineage that has spread to northern latitudes from an unknown glacial refugium and is now found in a much broader spectrum of habitats. Insights into the history of the species and the fine-scale distribution of genetic diversity provide the basis for full exploitation of A. thaliana natural variation through integration of genomes and epigenomes with molecular and non-molecular phenotypes.

Published

2016

31. The Footprint of Polygenic Adaptation on Stress-Responsive Cis-Regulatory Divergence in the Arabidopsis Genus

Author

He, Fei, Arce, Agustin L., Schmitz, Gregor, Koornneef, Maarten, Novikova, Polina, Beyer, Andreas, de Meaux, Juliette, He, Fei, Arce, Agustin L., Schmitz, Gregor, Koornneef, Maarten, Novikova, Polina, Beyer, Andreas, and de Meaux, Juliette

Abstract

Adaptation of a complex trait often requires the accumulation of many modifications to finely tune its underpinning molecular components to novel environmental requirements. The investigation of cis-acting regulatorymodifications can be used to pinpoint molecular systems partaking in such complex adaptations. Here, we identify cis-acting modifications with the help of an interspecific crossing scheme designed to distinguish modifications derived in each of the two sister species, Arabidopsis halleri and A. lyrata. Allele-specific expression levels were assessed in three environmental conditions chosen to reflect interspecific ecological differences: cold exposure, dehydration, and standard conditions. The functions described by Gene Ontology categories enriched in cis-acting mutations are markedly different in A. halleri and A. lyrata, suggesting that polygenic adaptation reshaped distinct polygenic molecular functions in the two species. In the A. halleri lineage, an excess of cis-acting changes affectingmetal transport and homeostasis was observed, confirming that the wellknown heavy metal tolerance of this species is the result of polygenic selection. In A. lyrata, we find amarked excess of cisacting changes among genes showing a transcriptional response to cold stress in the outgroup species A. thaliana. The adaptive relevance of these changes will have to be validated. We finally observed that polygenic molecular functions enriched in derived cis-acting changes are more constrained at the amino acid level. Using the distribution of cis-acting variation to tackle the polygenic basis of adaptation thus reveals the contribution of mutations of small effect to Darwinian adaptation.

Published

2016

32. Sequencing of the genus Arabidopsis identifies a complex history of nonbifurcating speciation and abundant trans-specific polymorphism

Author

Novikova, Polina Yu, Hohmann, Nora, Nizhynska, Viktoria, Tsuchimatsu, Takashi, Ali, Jamshaid, Muir, Graham, Guggisberg, Alessia, Paape, Tim, Schmid, Karl, Fedorenko, Olga M, Holm, Svante, Säll, Torbjörn, Schlötterer, Christian, Marhold, Karol, Widmer, Alex, Sese, Jun, Shimizu, Kentaro K; https://orcid.org/0000-0002-6483-1781, Weigel, Detlef, Krämer, Ute, Koch, Marcus A, Nordborg, Magnus, Novikova, Polina Yu, Hohmann, Nora, Nizhynska, Viktoria, Tsuchimatsu, Takashi, Ali, Jamshaid, Muir, Graham, Guggisberg, Alessia, Paape, Tim, Schmid, Karl, Fedorenko, Olga M, Holm, Svante, Säll, Torbjörn, Schlötterer, Christian, Marhold, Karol, Widmer, Alex, Sese, Jun, Shimizu, Kentaro K; https://orcid.org/0000-0002-6483-1781, Weigel, Detlef, Krämer, Ute, Koch, Marcus A, and Nordborg, Magnus

Abstract

The notion of species as reproductively isolated units related through a bifurcating tree implies that gene trees should generally agree with the species tree and that sister taxa should not share polymorphisms unless they diverged recently and should be equally closely related to outgroups. It is now possible to evaluate this model systematically. We sequenced multiple individuals from 27 described taxa representing the entire Arabidopsis genus. Cluster analysis identified seven groups, corresponding to described species that capture the structure of the genus. However, at the level of gene trees, only the separation of Arabidopsis thaliana from the remaining species was universally supported, and, overall, the amount of shared polymorphism demonstrated that reproductive isolation was considerably more recent than the estimated divergence times. We uncovered multiple cases of past gene flow that contradict a bifurcating species tree. Finally, we showed that the pattern of divergence differs between gene ontologies, suggesting a role for selection.

Published

2016

33. Mesenchymal stem cells with irreversibly arrested proliferation stimulate decidua development in rats

Author

Domnina, Alisa P., primary, Novikova, Polina V., additional, Lyublinskaya, Olga G., additional, Zenin, Valeriy V., additional, Fridlyanskaya, Irina I., additional, Mikhailov, Vyacheslav M., additional, and Nikolsky, Nikolay N., additional

Published

2016

34. 1,135 Genomes Reveal the Global Pattern of Polymorphism in Arabidopsis thaliana

Author

Alonso-Blanco, Carlos, primary, Andrade, Jorge, additional, Becker, Claude, additional, Bemm, Felix, additional, Bergelson, Joy, additional, Borgwardt, Karsten M., additional, Cao, Jun, additional, Chae, Eunyoung, additional, Dezwaan, Todd M., additional, Ding, Wei, additional, Ecker, Joseph R., additional, Exposito-Alonso, Moises, additional, Farlow, Ashley, additional, Fitz, Joffrey, additional, Gan, Xiangchao, additional, Grimm, Dominik G., additional, Hancock, Angela M., additional, Henz, Stefan R., additional, Holm, Svante, additional, Horton, Matthew, additional, Jarsulic, Mike, additional, Kerstetter, Randall A., additional, Korte, Arthur, additional, Korte, Pamela, additional, Lanz, Christa, additional, Lee, Cheng-Ruei, additional, Meng, Dazhe, additional, Michael, Todd P., additional, Mott, Richard, additional, Muliyati, Ni Wayan, additional, Nägele, Thomas, additional, Nagler, Matthias, additional, Nizhynska, Viktoria, additional, Nordborg, Magnus, additional, Novikova, Polina Yu., additional, Picó, F. Xavier, additional, Platzer, Alexander, additional, Rabanal, Fernando A., additional, Rodriguez, Alex, additional, Rowan, Beth A., additional, Salomé, Patrice A., additional, Schmid, Karl J., additional, Schmitz, Robert J., additional, Seren, Ümit, additional, Sperone, Felice Gianluca, additional, Sudkamp, Mitchell, additional, Svardal, Hannes, additional, Tanzer, Matt M., additional, Todd, Donald, additional, Volchenboum, Samuel L., additional, Wang, Congmao, additional, Wang, George, additional, Wang, Xi, additional, Weckwerth, Wolfram, additional, Weigel, Detlef, additional, and Zhou, Xuefeng, additional

Published

2016

35. The Footprint of Polygenic Adaptation on Stress-ResponsiveCis-Regulatory Divergence in theArabidopsis Genus

Author

He, Fei, primary, Arce, Agustin L., additional, Schmitz, Gregor, additional, Koornneef, Maarten, additional, Novikova, Polina, additional, Beyer, Andreas, additional, and de Meaux, Juliette, additional

Published

2016

36. Genome Sequencing Reveals the Origin of the Allotetraploid Arabidopsis suecica.

Author

Novikova, Polina Yu., Tsuchimatsu, Takashi, Simon, Samson, Nizhynska, Viktoria, Voronin, Viktor, Burns, Robin, Fedorenko, Olga M., Holm, Svante, Säll, Torbjörn, Prat, Elisa, Marande, William, Castric, Vincent, and Nordborg, Magnus

Abstract

Polyploidy is an example of instantaneous speciation when it involves the formation of a new cytotype that is incompatible with the parental species. Because new polyploid individuals are likely to be rare, establishment of a new species is unlikely unless polyploids are able to reproduce through self-fertilization (selfing), or asexually. Conversely, selfing (or asexuality) makes it possible for polyploid species to originate from a single individual--a bona fide speciation event. The extent to which this happens is not known. Here, we consider the origin of Arabidopsis suecica, a selfing allopolyploid between Arabidopsis thaliana and Arabidopsis arenosa, which has hitherto been considered to be an example of a unique origin. Based on whole-genome re-sequencing of 15 natural A. suecica accessions, we identify ubiquitous shared polymorphism with the parental species, and hence conclusively reject a unique origin in favor of multiple founding individuals. We further estimate that the species originated after the last glacial maximum in Eastern Europe or central Eurasia (rather than Sweden, as the name might suggest). Finally, annotation of the self-incompatibility loci in A. suecica revealed that both loci carry non-functional alleles. The locus inherited from the selfing A. thaliana is fixed for an ancestral non-functional allele, whereas the locus inherited from the outcrossing A. arenosa is fixed for a novel loss-offunction allele. Furthermore, the allele inherited from A. thaliana is predicted to transcriptionally silence the allele inherited from A. arenosa, suggesting that loss of self-incompatibility may have been instantaneous. [ABSTRACT FROM AUTHOR]

Published

2017

37. The Footprint of Polygenic Adaptation on Stress-Responsive Cis-Regulatory Divergence in the Arabidopsis Genus.

Author

Fei He, Arce, Agustin L., Schmitz, Gregor, Koornneef, Maarten, Novikova, Polina, Beyer, Andreas, and de Meaux, Juliette

Abstract

Adaptation of a complex trait often requires the accumulation of many modifications to finely tune its underpinning molecular components to novel environmental requirements. The investigation of cis-acting regulatory modifications can be used to pinpoint molecular systems partaking in such complex adaptations. Here, we identify cis-acting modifications with the help of an interspecific crossing scheme designed to distinguish modifications derived in each of the two sister species, Arabidopsis halleri and A. lyrata. Allele-specific expression levels were assessed in three environmental conditions chosen to reflect interspecific ecological differences: cold exposure, dehydration, and standard conditions. The functions described by Gene Ontology categories enriched in cis-acting mutations are markedly different in A. halleri and A. lyrata, suggesting that polygenic adaptation reshaped distinct polygenic molecular functions in the two species. In the A. halleri lineage, an excess of cis-acting changes affecting metal transport and homeostasis was observed, confirming that the well-known heavy metal tolerance of this species is the result of polygenic selection. In A. lyrata, we find amarked excess of cis-acting changes among genes showing a transcriptional response to cold stress in the outgroup species A. thaliana. The adaptive relevance of these changes will have to be validated. We finally observed that polygenic molecular functions enriched in derived cis-acting changes are more constrained at the amino acid level. Using the distribution of cis-acting variation to tackle the polygenic basis of adaptation thus reveals the contribution of mutations of small effect to Darwinian adaptation. [ABSTRACT FROM AUTHOR]

Published

2016

38. Unstable Inheritance of 45S rRNA Genes in Arabidopsis thaliana.

Author

Rabanal, Fernando A., Nizhynska, Viktoria, Mandáková, Terezie, Novikova, Polina Yu., Lysak, Martin A., Mott, Richard, and Nordborg, Magnus

Subjects

*ARABIDOPSIS thaliana genetics, *RIBOSOMAL RNA, *NUCLEOLUS organizer region

Abstract

The considerable genome size variation in Arabidopsis thaliana has been shown largely to be due to copy number variation (CNV) in 45S ribosomal RNA (rRNA) genes. Surprisingly, attempts to map this variation by means of genome-wide association studies (GWAS) failed to identify either of the two likely sources, namely the nucleolus organizer regions (NORs). Instead, GWAS implicated a trans-acting locus, as if rRNA gene CNV was a phenotype rather than a genotype. To explain these results, we investigated the inheritance and stability of rRNA gene copy number using the variety of genetic resources available in A. thaliana -- F2 crosses, recombinant inbred lines, the multiparent advanced-generation inter-cross population, and mutation accumulation lines. Our results clearly show that rRNA gene CNV can be mapped to the NORs themselves, with both loci contributing equally to the variation. However, NOR size is unstably inherited, and dramatic copy number changes are visible already within tens of generations, which explains why it is not possible to map the NORs using GWAS. We did not find any evidence of trans-acting loci in crosses, which is also expected since changes due to such loci would take very many generations to manifest themselves. rRNA gene copy number is thus an interesting example of "missing heritability"--a trait that is heritable in pedigrees, but not in the general population. [ABSTRACT FROM AUTHOR]

Published

2017

39. Gradual evolution of allopolyploidy in Arabidopsis suecica

Author

Magnus Nordborg, Polina Yu. Novikova, Chang Liu, Terezie Mandáková, Luz Mayela Soto-Jiménez, Martin A. Lysak, Robin Burns, Joanna Gunis, Burns, Robin [0000-0002-5709-3266], Gunis, Joanna [0000-0002-4421-9552], Soto-Jiménez, Luz Mayela [0000-0002-7449-220X], Lysak, Martin A [0000-0003-0318-4194], Novikova, Polina Yu [0000-0002-4552-4575], Nordborg, Magnus [0000-0001-7178-9748], and Apollo - University of Cambridge Repository

Subjects

EXPRESSION, Transposable element, Evolution, Speciation, RIBOSOMAL-RNA GENES, Arabidopsis, POLYPLOIDY, Genome, Article, Evolutionary genetics, Arabidopsis arenosa, Polyploidy, Behavior and Systematics, Polyploid, NUCLEOLAR DOMINANCE, Arabidopsis thaliana, Humans, Gene, ELIMINATION, Ecology, Evolution, Behavior and Systematics, Ecology, biology, Human evolutionary genetics, fungi, Biology and Life Sciences, food and beverages, BRASSICA-NAPUS, biology.organism_classification, Diploidy, CD-HIT, Evolutionary biology, TRANSPOSABLE ELEMENTS, COTTON, Hybridization, Genetic, Ploidy, GENOME ASSEMBLIES, Genome, Plant

Abstract

Most diploid organisms have polyploid ancestors. The evolutionary process of polyploidization is poorly understood but has frequently been conjectured to involve some form of ‘genome shock’, such as genome reorganization and subgenome expression dominance. Here we study polyploidization in Arabidopsis suecica, a post-glacial allopolyploid species formed via hybridization of Arabidopsis thaliana and Arabidopsis arenosa. We generated a chromosome-level genome assembly of A. suecica and complemented it with polymorphism and transcriptome data from all species. Despite a divergence around 6 million years ago (Ma) between the ancestral species and differences in their genome composition, we see no evidence of a genome shock: the A. suecica genome is colinear with the ancestral genomes; there is no subgenome dominance in expression; and transposon dynamics appear stable. However, we find changes suggesting gradual adaptation to polyploidy. In particular, the A. thaliana subgenome shows upregulation of meiosis-related genes, possibly to prevent aneuploidy and undesirable homeologous exchanges that are observed in synthetic A. suecica, and the A. arenosa subgenome shows upregulation of cyto-nuclear processes, possibly in response to the new cytoplasmic environment of A. suecica, with plastids maternally inherited from A. thaliana. These changes are not seen in synthetic hybrids, and thus are likely to represent subsequent evolution., Arabidopsis suecica is a natural allotetraploid species formed via hybridization of Arabidopsis thaliana and Arabidopsis arenosa. Comparative analysis of genome and transcriptome data shows no evidence for major genomic changes linked to structural and functional alterations in A. suecica but reveals changes to the meiotic machinery and cyto-nuclear processes.

Published

2021

40. The Footprint of Polygenic Adaptation on Stress-Responsive Cis-Regulatory Divergence in the Arabidopsis Genus.

Author

He F, Arce AL, Schmitz G, Koornneef M, Novikova P, Beyer A, and de Meaux J

Subjects

Acclimatization genetics, Alleles, Arabidopsis growth & development, Arabidopsis Proteins genetics, Crosses, Genetic, Evolution, Molecular, Gene Expression Regulation, Plant, Genes, Plant, Genetic Variation, Multifactorial Inheritance genetics, Phylogeny, Transcriptome, Adaptation, Physiological genetics, Arabidopsis genetics, Stress, Physiological genetics

Abstract

Adaptation of a complex trait often requires the accumulation of many modifications to finely tune its underpinning molecular components to novel environmental requirements. The investigation of cis-acting regulatory modifications can be used to pinpoint molecular systems partaking in such complex adaptations. Here, we identify cis-acting modifications with the help of an interspecific crossing scheme designed to distinguish modifications derived in each of the two sister species, Arabidopsis halleri and A. lyrata Allele-specific expression levels were assessed in three environmental conditions chosen to reflect interspecific ecological differences: cold exposure, dehydration, and standard conditions. The functions described by Gene Ontology categories enriched in cis-acting mutations are markedly different in A. halleri and A. lyrata, suggesting that polygenic adaptation reshaped distinct polygenic molecular functions in the two species. In the A. halleri lineage, an excess of cis-acting changes affecting metal transport and homeostasis was observed, confirming that the well-known heavy metal tolerance of this species is the result of polygenic selection. In A. lyrata, we find a marked excess of cis-acting changes among genes showing a transcriptional response to cold stress in the outgroup species A. thaliana The adaptive relevance of these changes will have to be validated. We finally observed that polygenic molecular functions enriched in derived cis-acting changes are more constrained at the amino acid level. Using the distribution of cis-acting variation to tackle the polygenic basis of adaptation thus reveals the contribution of mutations of small effect to Darwinian adaptation., (© The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

41. Exogenous selection rather than cytonuclear incompatibilities shapes asymmetrical fitness of reciprocal Arabidopsis hybrids.

Author

Muir G, Ruiz-Duarte P, Hohmann N, Mable BK, Novikova P, Schmickl R, Guggisberg A, and Koch MA

Abstract

Reciprocal crosses between species often display an asymmetry in the fitness of F1 hybrids. This pattern, referred to as isolation asymmetry or Darwin's corollary to Haldane's rule, is a general feature of reproductive isolation in plants, yet factors determining its magnitude and direction remain unclear. We evaluated reciprocal species crosses between two naturally hybridizing diploid species of Arabidopsis to assess the degree of isolation asymmetry at different postmating life stages. We found that pollen from Arabidopsis arenosa will usually fertilize ovules from Arabidopsis lyrata; the reverse receptivity being less complete. Maternal A. lyrata parents set more F1 hybrid seed, but germinate at lower frequency, reversing the asymmetry. As predicted by theory, A. lyrata (the maternal parent with lower seed viability in crosses) exhibited accelerated chloroplast evolution, indicating that cytonuclear incompatibilities may play a role in reproductive isolation. However, this direction of asymmetrical reproductive isolation is not replicated in natural suture zones, where delayed hybrid breakdown of fertility at later developmental stages, or later-acting selection against A. arenosa maternal hybrids (unrelated to hybrid fertility, e.g., substrate adaptation) may be responsible for an excess of A. lyrata maternal hybrids. Exogenous selection rather than cytonuclear incompatibilities thus shapes the asymmetrical postmating isolation in nature.

Published

2015