1,267 results on '"1110 Plant Science"'
Search Results
2. A complex network regulating malate contents during fruit ripening in climacteric fruits
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Enrico Martinoia, Ekkehard Neuhaus, University of Zurich, and Neuhaus, Ekkehard
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10126 Department of Plant and Microbial Biology ,Physiology ,1110 Plant Science ,Plant Science ,1314 Physiology ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Published
- 2023
3. Organic management and soil health promote nutrient use efficiency
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Toda, Misato, Walder, Florian, van der Heijden, Marcel G A, University of Zurich, and van der Heijden, Marcel G A
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10126 Department of Plant and Microbial Biology ,1101 Agricultural and Biological Sciences (miscellaneous) ,1110 Plant Science ,1102 Agronomy and Crop Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center ,2303 Ecology - Published
- 2023
4. The PTI-suppressing Avr2 effector from Fusarium oxysporum suppresses mono-ubiquitination and plasma membrane dissociation of BIK1
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Blekemolen, Mila C, Liu, Zunyong, Stegman, Martin, Zipfel, Cyril, Shan, Libo, Takken, Frank L W, University of Zurich, and Takken, Frank L W
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10126 Department of Plant and Microbial Biology ,1110 Plant Science ,1312 Molecular Biology ,1102 Agronomy and Crop Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center ,1111 Soil Science - Published
- 2023
5. Where, when, and why do plant volatiles mediate ecological signaling? The answer is blowing in the wind
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Schuman, Meredith Christine, University of Zurich, and Schuman, Meredith Christine
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10120 Department of Chemistry ,1307 Cell Biology ,10122 Institute of Geography ,UFSP13-8 Global Change and Biodiversity ,Physiology ,1110 Plant Science ,1312 Molecular Biology ,1314 Physiology ,Cell Biology ,Plant Science ,910 Geography & travel ,Molecular Biology - Published
- 2023
6. Fern cell walls and the evolution of arabinogalactan proteins in streptophytes
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Mueller, Kim-Kristine, Pfeifer, Lukas, Schuldt, Lina, Szövényi, Péter, de Vries, Sophie, de Vries, Jan, Johnson, Kim L, Classen, Birgit, University of Zurich, and Classen, Birgit
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Salvinia molesta ,phylogenetic analysis ,plant evolution ,polysaccharides ,Cell Biology ,Plant Science ,580 Plants (Botany) ,arabinogalactan protein ,UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,1307 Cell Biology ,10121 Department of Systematic and Evolutionary Botany ,1311 Genetics ,ferns ,1110 Plant Science ,glycosyltransferases ,Genetics ,Azolla filiculoides ,Ceratopteris richardii ,cell wall ,10211 Zurich-Basel Plant Science Center - Abstract
Significant changes have occurred in plant cell wall composition during evolution and diversification of tracheophytes. As the sister lineage to seed plants, knowledge on the cell wall of ferns is key to track evolutionary changes across tracheophytes and to understand seed plant-specific evolutionary innovations. Fern cell wall composition is not fully understood, including limited knowledge of glycoproteins such as the fern arabinogalactan proteins (AGPs). Here, we characterize the AGPs from the leptosporangiate fern genera Azolla, Salvinia, and Ceratopteris. The carbohydrate moiety of seed plant AGPs consists of a galactan backbone including mainly 1,3- and 1,3,6-linked pyranosidic galactose, which is conserved across the investigated fern AGPs. Yet, unlike AGPs of angiosperms, those of ferns contained the unusual sugar 3-O-methylrhamnose. Besides terminal furanosidic arabinose, Ara (Araf), the main linkage type of Araf in the ferns was 1,2-linked Araf, whereas in seed plants 1,5-linked Araf is often dominating. Antibodies directed against carbohydrate epitopes of AGPs supported the structural differences between AGPs of ferns and seed plants. Comparison of AGP linkage types across the streptophyte lineage showed that angiosperms have rather conserved monosaccharide linkage types; by contrast bryophytes, ferns, and gymnosperms showed more variability. Phylogenetic analyses of glycosyltransferases involved in AGP biosynthesis and bioinformatic search for AGP protein backbones revealed a versatile genetic toolkit for AGP complexity in ferns. Our data reveal important differences across AGP diversity of which the functional significance is unknown. This diversity sheds light on the evolution of the hallmark feature of tracheophytes: their elaborate cell walls., The Plant Journal, 114 (4), ISSN:0960-7412, ISSN:1365-313X
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- 2023
7. Effects of enemy exclusion on biodiversity–productivity relationships in a subtropical forest experiment
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Yuanyuan Huang, Andreas Schuldt, Lydia Hönig, Bo Yang, Xiaojuan Liu, Helge Bruelheide, Keping Ma, Bernhard Schmid, Pascal A. Niklaus, University of Zurich, Schmid, Bernhard, and Niklaus, Pascal A
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10127 Institute of Evolutionary Biology and Environmental Studies ,10122 Institute of Geography ,1105 Ecology, Evolution, Behavior and Systematics ,Behavior and Systematics ,Ecology ,Evolution ,1110 Plant Science ,Plant Science ,910 Geography & travel ,2303 Ecology ,Ecology, Evolution, Behavior and Systematics - Abstract
Interspecific niche complementarity is a key mechanism posited to explain positive species richness-productivity relationships in plant communities. However, the exact nature of the niche dimensions that plant species partition remains poorly known.Species may partition abiotic resources that limit their growth, but species may also be specialized with respect to their set of biotic interactions with other trophic levels, in particular with enemies including pathogens and consumers. The lower host densities present in more species-diverse plant communities may therefore result in smaller populations of specialized enemies, and in a smaller associated negative feedback these enemies exert on plant productivity.To test whether such host density-dependent effects of enemies drive diversity-productivity relationships in young forest stands, we experimentally manipulated leaf fungal pathogens and insect herbivores in a large subtropical forest biodiversity-ecosystem functioning experiment in China (BEF-China).We found that fungicide spraying of tree canopies removed the positive tree-species richness-productivity relationship present in untreated control plots. The tree species that contributed the most to this effect were the ones with the highest fungicide-induced growth increase in monoculture. Insecticide application did not cause comparable effects.
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- 2022
8. Assessment of transcriptional reprogramming of lettuce roots in response to chitin soil amendment
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Li, Leilei, Kaufmann, Moritz, Makechemu, Moffat, Van Poucke, Christof, De Keyser, Ellen, Uyttendaele, Mieke, Zipfel, Cyril, Cottyn, Bart, Pothier, Joël F, University of Zurich, Li, Leilei, and Pothier, Joël F
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10126 Department of Plant and Microbial Biology ,Phenolic compound ,Plant defense ,572: Biochemie ,1110 Plant Science ,Chitin ,RNA-Seq ,Plant Science ,Lettuce ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Abstract
Chitin soil amendment is known to improve soil quality, plant growth and stress resilience, but the underlying mechanisms are not well understood. In this study, we monitored chitin’s effect on lettuce physiology every two weeks through an eight-week growth period, analyzed the early transcriptional reprogramming and related metabolomic changes of lettuce, in response to crab chitin treatment in peat-based potting soil. In commercial growth conditions, chitin amendment still promoted lettuce growth, increased chlorophyll content, the number of leaves and crop head weight from week six. The flavonoid content in lettuce leaves was altered as well, showing an increase at week two but a decrease from week six. Transcriptomic analysis showed that over 300 genes in lettuce root were significantly differentially expressed after chitin soil treatment. Gene Ontology-term (GO) enrichment analysis revealed statistical overrepresentation of GO terms linked to photosynthesis, pigment metabolic process and phenylpropanoid metabolic process. Further analysis of the differentially expressed genes (DEGs) showed that the flavonoid pathway was mostly upregulated whereas the bifurcation of upstream phenylpropanoid pathway towards lignin biosynthesis was mostly downregulated. Metabolomic analysis revealed the upregulation of salicylic acid, chlorogenic acid, ferulic acid, and p-coumaric acid in chitin-treated lettuce seedlings. These phenolic compounds (PCs) mainly influence the phenylpropanoid biosynthesis pathway and may play important roles in plant defense reactions. Our results suggest that chitin soil amendments might activate induced resistance by priming lettuce plants and promote lettuce growth via transcriptional changes.
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- 2023
9. Role of ubiquitination in arsenic tolerance in plants
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Zhang, Jie, Wysocki, Robert, Li, Fangbai, Yu, Min, Martinoia, Enrico, Song, Won-Yong, University of Zurich, and Yu, Min
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10126 Department of Plant and Microbial Biology ,1110 Plant Science ,Plant Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Published
- 2023
10. A survey of lineage-specific genes in Triticeae reveals de novo gene evolution from genomic raw material
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Poretti, Manuel, Praz, Coraline R, Sotiropoulos, Alexandros G, Wicker, Thomas, University of Zurich, Wicker, Thomas, Swiss National Science Foundation, Poretti, Manuel, Praz, Coraline R., and Sotiropoulos, Alexandros G.
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Ecology ,Plant Science ,580 Plants (Botany) ,Biochemistry, Genetics and Molecular Biology (miscellaneous) ,1301 Biochemistry, Genetics and Molecular Biology (miscellaneous) ,UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,1105 Ecology, Evolution, Behavior and Systematics ,10126 Department of Plant and Microbial Biology ,1110 Plant Science ,Triticeae‐specific genes ,De novo gene evolution ,10211 Zurich-Basel Plant Science Center ,Stress adaptation ,Transposable elements ,2303 Ecology ,Ecology, Evolution, Behavior and Systematics - Abstract
16 Pág., Diploid plant genomes typically contain ~35,000 genes, almost all belonging to highly conserved gene families. Only a small fraction are lineage-specific, which are found in only one or few closely related species. Little is known about how genes arise de novo in plant genomes and how often this occurs; however, they are believed to be important for plants diversification and adaptation. We developed a pipeline to identify lineage-specific genes in Triticeae, using newly available genome assemblies of wheat, barley, and rye. Applying a set of stringent criteria, we identified 5942 candidate Triticeae-specific genes (TSGs), of which 2337 were validated as protein-coding genes in wheat. Differential gene expression analyses revealed that stress-induced wheat TSGs are strongly enriched in putative secreted proteins. Some were previously described to be involved in Triticeae non-host resistance and cold response. Additionally, we show that 1079 TSGs have sequence homology to transposable elements (TEs), ~68% of them deriving from regulatory non-coding regions of Gypsy retrotransposons. Most importantly, we demonstrate that these TSGs are enriched in transmembrane domains and are among the most highly expressed wheat genes overall. To summarize, we conclude that de novo gene formation is relatively rare and that Triticeae probably possess ~779 lineage-specific genes per haploid genome. TSGs, which respond to pathogen and environmental stresses, may be interesting candidates for future targeted resistance breeding in Triticeae. Finally, we propose that non-coding regions of TEs might provide important genetic raw material for the functional innovation of TM domains and the evolution of novel secreted proteins., This work was supported by the Swiss National Foundation grant 31003A_163325.University of Zurich Research Priority Program, Grant/Award Number: U-702-21-01; Swiss National Foundation, Grant/Award Number: 31003A_163325
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- 2023
11. The broad use of the Pm8 resistance gene in wheat resulted in hypermutation of the AvrPm8 gene in the powdery mildew pathogen
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Lukas Kunz, Alexandros G. Sotiropoulos, Johannes Graf, Mohammad Razavi, Beat Keller, Marion C. Müller, University of Zurich, Keller, Beat, and Müller, Marion C
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Physiology ,Evolution ,Genetics and Molecular Biology ,1100 General Agricultural and Biological Sciences ,Plant Science ,580 Plants (Botany) ,General Biochemistry, Genetics and Molecular Biology ,UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,1309 Developmental Biology ,1307 Cell Biology ,1315 Structural Biology ,10126 Department of Plant and Microbial Biology ,Behavior and Systematics ,1300 General Biochemistry, Genetics and Molecular Biology ,Structural Biology ,1110 Plant Science ,10211 Zurich-Basel Plant Science Center ,Ecology, Evolution, Behavior and Systematics ,Ecology ,1314 Physiology ,Cell Biology ,1105 Ecology, Evolution, Behavior and Systematics ,General Biochemistry ,1305 Biotechnology ,General Agricultural and Biological Sciences ,Developmental Biology ,Biotechnology - Abstract
Background Worldwide wheat production is under constant threat by fast-evolving fungal pathogens. In the last decades, wheat breeding for disease resistance heavily relied on the introgression of chromosomal segments from related species as genetic sources of new resistance. The Pm8 resistance gene against the powdery mildew disease has been introgressed from rye into wheat as part of a large 1BL.1RS chromosomal translocation encompassing multiple disease resistance genes and yield components. Due to its high agronomic value, this translocation has seen continuous global use since the 1960s on large growth areas, even after Pm8 resistance was overcome by the powdery mildew pathogen. The long-term use of Pm8 at a global scale provided the unique opportunity to study the consequences of such extensive resistance gene application on pathogen evolution. Results Using genome-wide association studies in a population of wheat mildew isolates, we identified the avirulence effector AvrPm8 specifically recognized by Pm8. Haplovariant mining in a global mildew population covering all major wheat growing areas of the world revealed 17 virulent haplotypes of the AvrPm8 gene that grouped into two functional categories. The first one comprised amino acid polymorphisms at a single position along the AvrPm8 protein, which we confirmed to be crucial for the recognition by Pm8. The second category consisted of numerous destructive mutations to the AvrPm8 open reading frame such as disruptions of the start codon, gene truncations, gene deletions, and interference with mRNA splicing. With the exception of a single, likely ancient, gain-of-virulence mutation found in mildew isolates around the world, all AvrPm8 virulence haplotypes were found in geographically restricted regions, indicating that they occurred recently as a consequence of the frequent Pm8 use. Conclusions In this study, we show that the broad and prolonged use of the Pm8 gene in wheat production worldwide resulted in a multitude of gain-of-virulence mechanisms affecting the AvrPm8 gene in the wheat powdery mildew pathogen. Based on our findings, we conclude that both standing genetic variation as well as locally occurring new mutations contributed to the global breakdown of the Pm8 resistance gene introgression.
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- 2023
12. Haplotype-resolved DNA methylome of African cassava genome
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Zhenhui Zhong, Suhua Feng, Ben N. Mansfeld, Yunqing Ke, Weihong Qi, Yi‐Wen Lim, Wilhelm Gruissem, Rebecca S. Bart, Steven E. Jacobsen, University of Zurich, and Jacobsen, Steven E
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DNA methylation ,10255 Clinic for Thoracic Surgery ,610 Medicine & health ,10071 Functional Genomics Center Zurich ,Plant Science ,cassava ,haplotype-resolved ,1110 Plant Science ,1305 Biotechnology ,570 Life sciences ,biology ,1102 Agronomy and Crop Science ,Agronomy and Crop Science ,Biotechnology - Abstract
Plant Biotechnology Journal, 21 (2), ISSN:1467-7644, ISSN:1467-7652
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- 2023
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13. Phenotypic variation of a new synthetic allotetraploid Arabidopsis
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Shimizu-Inatsugi, Rie, Morishima, Aki, Mourato, Beatriz, Shimizu, Kentaro K, Sato, Yasuhiro, University of Zurich, and Shimizu-Inatsugi, Rie
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UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,10127 Institute of Evolutionary Biology and Environmental Studies ,UFSP13-8 Global Change and Biodiversity ,1110 Plant Science ,570 Life sciences ,biology ,Plant Science - Published
- 2023
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14. 3D cellular morphometrics of ovule primordium development in Zea mays reveal differential division and growth dynamics specifying megaspore mother cell singleness
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Ouedraogo, Inès, Lartaud, Marc, Baroux, Célia, Mosca, Gabriella, Delgado, Luciana, Leblanc, Oliver, Verdeil, Jean-Luc, Conéjéro, Geneviève, Autran, Daphné, University of Zurich, Autran, Daphné, Diversité, adaptation, développement des plantes (UMR DIADE), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM), Développement Adaptatif du Riz [AGAP] (DAR), Amélioration génétique et adaptation des plantes méditerranéennes et tropicales (UMR AGAP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM), Universität Zürich [Zürich] = University of Zurich (UZH), University of Rosario, Institut des Sciences des Plantes de Montpellier (IPSIM), Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, and ANR-10-INBS-04
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developmental atlas ,[SDV]Life Sciences [q-bio] ,morphogenesis ,MMC specification ,Plant Science ,580 Plants (Botany) ,ovule primordium ,Zea mays ,3D morphometrics ,10126 Department of Plant and Microbial Biology ,female germ cell ,1110 Plant Science ,[SDV.BV]Life Sciences [q-bio]/Vegetal Biology ,10211 Zurich-Basel Plant Science Center - Abstract
IntroductionDifferentiation of spore mother cells marks the somatic-to-reproductive transition in higher plants. Spore mother cells are critical for fitness because they differentiate into gametes, leading to fertilization and seed formation. The female spore mother cell is called the megaspore mother cell (MMC) and is specified in the ovule primordium. The number of MMCs varies by species and genetic background, but in most cases, only a single mature MMC enters meiosis to form the embryo sac. Multiple candidate MMC precursor cells have been identified in both rice and Arabidopsis, so variability in MMC number is likely due to conserved early morphogenetic events. In Arabidopsis, the restriction of a single MMC per ovule, or MMC singleness, is determined by ovule geometry. To look for potential conservation of MMC ontogeny and specification mechanisms, we undertook a morphogenetic description of ovule primordium growth at cellular resolution in the model crop maize.MethodsWe generated a collection of 48 three-dimensional (3D) ovule primordium images for five developmental stages, annotated for 11 cell types. Quantitative analysis of ovule and cell morphological descriptors allowed the reconstruction of a plausible developmental trajectory of the MMC and its neighbors.ResultsThe MMC is specified within a niche of enlarged, homogenous L2 cells, forming a pool of candidate archesporial (MMC progenitor) cells. A prevalent periclinal division of the uppermost central archesporial cell formed the apical MMC and the underlying cell, a presumptive stack cell. The MMC stopped dividing and expanded, acquiring an anisotropic, trapezoidal shape. By contrast, periclinal divisions continued in L2 neighbor cells, resulting in a single central MMC.DiscussionWe propose a model where anisotropic ovule growth in maize drives L2 divisions and MMC elongation, coupling ovule geometry with MMC fate.
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- 2023
15. Whole-genome analyses disentangle reticulate evolution of primroses in a biodiversity hotspot
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Stubbs, Rebecca L, Theodoridis, Spyros, Mora-Carrera, Emiliano, Keller, Barbara, Yousefi, Narjes, Potente, Giacomo, Léveillé-Bourret, Étienne, Celep, Ferhat, Kochjarová, Judita, Tedoradze, Giorgi, Eaton, Deren A R, Conti, Elena, University of Zurich, Stubbs, Rebecca L, and Theodoridis, Spyros
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10121 Department of Systematic and Evolutionary Botany ,1110 Plant Science ,1314 Physiology ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Published
- 2023
16. Skewed morph ratios lead to lower genetic diversity of the heterostylous Primula veris in fragmented grasslands
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Kaldra, M, Träger, Sabrina, Reinula, Iris, Keller, Barbara, Conti, Elena, Aavik, Tsipe, University of Zurich, and Kaldra, M
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10121 Department of Systematic and Evolutionary Botany ,1105 Ecology, Evolution, Behavior and Systematics ,1110 Plant Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Abstract
Populations of heterostylous plant species are ideally composed of equal frequencies of two (distylous) or three (tristylous) morphologically different floral morphs. Intra-morph incompatibility helps to avoid inbreeding and to maintain genetic diversity, supporting plant fitness and long-term viability. Habitat fragmentation can lead to skewed morph ratios and thereby reduce the abundance of compatible mates. This, in turn, can result in a loss of genetic diversity. We tested whether the genetic diversity of heterostylous plants is affected by morph ratio bias using populations of the distylous grassland plant Primula veris in recently fragmented grasslands. We recorded morph frequencies and population sizes in 30 study populations of P. veris on two Estonian islands characterised by different degrees of habitat fragmentation. Examining variation of thousands of single nucleotide polymorphisms (SNPs) and heterostyly-specific genetic markers, we quantified overall and morph-specific genetic diversity and differentiation in these populations. Morph frequencies deviated more in smaller populations. Skewed morph ratios had a negative effect on the genetic diversity of P. veris in more fragmented grasslands. In the populations of better-connected grassland systems, genetic differentiation among S-morphs was higher than among L-morphs. Our study shows that deviations from morph balance are stronger in small populations and have a negative impact on the genetic diversity of the distylous plant P. veris. Together with the direct negative effects of habitat loss and decreased population size on the genetic diversity of plants, morph ratio bias may intensify the process of genetic erosion, thus exacerbating the local extinction of heterostylous species.
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- 2023
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17. A metabarcoding protocol targeting two DNA regions to analyze root‐associated fungal communities in ferns and lycophytes
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Guillen‐Otero, Thais, Lee, Soon‐Jae, Chen, Cheng‐Wei, Szövényi, Péter, Kessler, Michael, University of Zurich, and Guillen‐Otero, Thais
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10121 Department of Systematic and Evolutionary Botany ,1105 Ecology, Evolution, Behavior and Systematics ,Ecology ,Behavior and Systematics ,Evolution ,1110 Plant Science ,Plant Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Published
- 2023
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18. Novitates Gabonenses 93: a fresh look at Podostemaceae in Gabon following recent inventories, with a new combination for Ledermanniella nicolasii
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Ehoarn Bidault, Archange Boupoya, Davy U. Ikabanga, Igor Nguimbit, Nicolas Texier, Rolf Rutishauser, Attila Mesterházy, Tariq Stévart, University of Zurich, and Bidault, Ehoarn
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Central Africa ,aquatic plants ,Lower Guinea ,Malpighiales ,Podostemoideae ,Plant Science ,Ledermanniella nicolasii ,580 Plants (Botany) ,Biota ,Podostemaceae ,hydropower ,10121 Department of Systematic and Evolutionary Botany ,Tracheophyta ,Magnoliopsida ,taxonomy ,1110 Plant Science ,Gabon ,10211 Zurich-Basel Plant Science Center ,Plantae ,Ledermanniella - Abstract
Background and aims – Podostemaceae is a family of strictly aquatic plants found in rapids and waterfalls. Despite a recent treatment in the Flore du Gabon, the family remained poorly known, with no major studies including Gabonese collections, and almost no targeted inventories since 1966. We present the first large-scale inventory of this family in Gabon, targeting Podostemaceae throughout the country, providing new additions to the flora of Gabon and many new records of poorly known species. Material and methods – Fieldwork was conducted in Gabon between 2017 and 2021. The collected specimens were primarily preserved in ethanol with associated silica gel-preserved material and photographs. Material available at BR, BRLU, LBV, MO, P, WAG, and Z/ZT was examined. For each species, information on distribution and ecology is presented, as well as a distribution map in Gabon. Key results – The 500 newly collected specimens represent 91.4% of all known collections of Podostemaceae from Gabon. Three taxa are newly recorded for the country, including one genus (Inversodicraea tenax, Ledermanniella schlechteri, and Saxicolella nana). New distribution records are also presented for 13 little-known species. Four taxa are excluded from the Gabonese flora (the genus Dicraeanthus, Inversodicraea ledermannii, Ledermanniella sanagaensis, and Macropodiella garrettii). To date, 20 species belonging to five different genera are known to occur in Gabon. A new combination is proposed for Ledermanniella nicolasii, and Inversodicraea tanzaniensis is now considered as a synonym of Inversodicraea tenax.
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- 2023
19. Late-season biosynthesis of leaf fatty acids and n-alkanes of a mature beech (Fagus sylvatica) tree traced via13CO2 pulse-chase labelling and compound-specific isotope analysis
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Speckert, Tatjana C, Petibon, Fanny, Wiesenberg, Guido L B, University of Zurich, and Speckert, Tatjana C
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10122 Institute of Geography ,1110 Plant Science ,Plant Science ,910 Geography & travel - Published
- 2023
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20. Global patterns and climatic determinants of phylogenetic structure of regional fern floras
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Hong Qian, Michael Kessler, Jian Zhang, Yi Jin, Meichen Jiang, University of Zurich, and Qian, Hong
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10121 Department of Systematic and Evolutionary Botany ,Physiology ,1110 Plant Science ,Plant Science ,1314 Physiology ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Published
- 2023
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21. Early cephalopod evolution clarified through Bayesian phylogenetic inference
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Alexander Pohle, Björn Kröger, Rachel C. M. Warnock, Andy H. King, David H. Evans, Martina Aubrechtová, Marcela Cichowolski, Xiang Fang, Christian Klug, University of Zurich, Pohle, Alexander, and Natural Sciences Unit
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Physiology ,Nautiloidea ,Plant Science ,10125 Paleontological Institute and Museum ,1309 Developmental Biology ,1307 Cell Biology ,1315 Structural Biology ,Structural Biology ,1110 Plant Science ,Phylogeny ,CALIBRATION ,Ecology ,Fossils ,ORIGIN ,Fossilized birth-death process ,Posterior clade probabilities ,MIDDLE ORDOVICIAN ,560 Fossils & prehistoric life ,SIPHUNCULAR STRUCTURE ,1305 Biotechnology ,Endoceratoidea ,General Agricultural and Biological Sciences ,Biotechnology ,Evolution ,119 Other natural sciences ,Bayesian phylogenetics ,Genetics and Molecular Biology ,1100 General Agricultural and Biological Sciences ,General Biochemistry, Genetics and Molecular Biology ,CLASSIFICATION ,CONSENSUS TREES ,MISSING DATA ,Behavior and Systematics ,1300 General Biochemistry, Genetics and Molecular Biology ,NAUTILOIDS ,Animals ,Ecology, Evolution, Behavior and Systematics ,Probability ,NECTOCARIS-PTERYX ,Bayes Theorem ,1314 Physiology ,Cell Biology ,1105 Ecology, Evolution, Behavior and Systematics ,Cephalopoda ,ddc:560 ,Multiceratoidea ,General Biochemistry ,Orthoceratoidea ,UNSTABLE TAXA ,Tree similarities ,Developmental Biology - Abstract
BackgroundDespite the excellent fossil record of cephalopods, their early evolution is poorly understood. Different, partly incompatible phylogenetic hypotheses have been proposed in the past, which reflected individual author’s opinions on the importance of certain characters but were not based on thorough cladistic analyses. At the same time, methods of phylogenetic inference have undergone substantial improvements. For fossil datasets, which typically only include morphological data, Bayesian inference and in particular the introduction of the fossilized birth-death model have opened new possibilities. Nevertheless, many tree topologies recovered from these new methods reflect large uncertainties, which have led to discussions on how to best summarize the information contained in the posterior set of trees.ResultsWe present a large, newly compiled morphological character matrix of Cambrian and Ordovician cephalopods to conduct a comprehensive phylogenetic analysis and resolve existing controversies. Our results recover three major monophyletic groups, which correspond to the previously recognized Endoceratoidea, Multiceratoidea, and Orthoceratoidea, though comprising slightly different taxa. In addition, many Cambrian and Early Ordovician representatives of the Ellesmerocerida and Plectronocerida were recovered near the root. The Ellesmerocerida is para- and polyphyletic, with some of its members recovered among the Multiceratoidea and early Endoceratoidea. These relationships are robust against modifications of the dataset. While our trees initially seem to reflect large uncertainties, these are mainly a consequence of the way clade support is measured. We show that clade posterior probabilities and tree similarity metrics often underestimate congruence between trees, especially if wildcard taxa are involved.ConclusionsOur results provide important insights into the earliest evolution of cephalopods and clarify evolutionary pathways. We provide a classification scheme that is based on a robust phylogenetic analysis. Moreover, we provide some general insights on the application of Bayesian phylogenetic inference on morphological datasets. We support earlier findings that quartet similarity metrics should be preferred over the Robinson-Foulds distance when higher-level phylogenetic relationships are of interest and propose that using a posteriori pruned maximum clade credibility trees help in assessing support for phylogenetic relationships among a set of relevant taxa, because they provide clade support values that better reflect the phylogenetic signal.
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- 2022
22. Deciphering of benzothiadiazole (BTH)-induced response of tomato (Solanum lycopersicum L.) and its effect on early response to virus infection through the multi-omics approach
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Frąckowiak, Patryk, Wrzesińska, Barbara, Wieczorek, Przemysław, Sanchez-Bel, Paloma, Kunz, Laura, Dittmann, Antje, Obrępalska-Stęplowska, Aleksandra, University of Zurich, and Obrępalska-Stęplowska, Aleksandra
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10051 Rheumatology Clinic and Institute of Physical Medicine ,WRKY ,Soil Science ,610 Medicine & health ,10071 Functional Genomics Center Zurich ,BTH ,Plant Science ,plant-virus interactions ,phytohormones ,Plant-virus interactions ,Priming ,Phytohormones ,Thiamine metabolism ,1110 Plant Science ,570 Life sciences ,biology ,thiamine metabolism ,priming ,1111 Soil Science - Abstract
Background and aims: One of the preventive methods used to limit the losses caused by viruses is the application of synthetic immunity inducers, such as benzo(1,2,3)-thiadiazole-7-carbothioic acid S-methyl ester (BTH). This study aimed at explaining how the BTH treatment affects the defence and developmental processes in tomato plants (Solanum lycopersicum L.) as well as plant response to virus infection. Method: The comparative multi-omics analyses concerning tomato plants treated with BTH were performed, including transcriptomics (RNA-Seq), proteomics (Liquid Chromatography-Mass Spectrometry), and metabolomics (targeted hormonal analysis). To confirm the priming effect of BTH on tomato resistance, the plants were infected with tomato mosaic virus (ToMV) seven days post-BTH treatment. Results: The combined functional analysis indicated the high impact of BTH on the plant's developmental processes and activation of the immune response early after the treatment. In the presented experimental model, the increased level of WRKY TRANSCRIPTION FACTORS, ARGONAUTE 2A, thiamine and glutathione metabolism, cell wall reorganization, and detoxification processes, as well as accumulation of three phytohormones: abscisic acid, jasmonic acid-isoleucine (JA-Ile), and indole-3-carboxylic acid (I3CA), were observed upon BTH application. Conclusion: The immune response activated by BTH was related to increased expression of genes associated with the cellular detoxification process, systemic acquired resistance, and induced systemic resistance as well as post-transcriptional gene silencing. Increased levels of I3CA and JA-Ile might explain the BTH's effectiveness in the induction of the plant defence against a broad spectrum of pathogens. For the first time, the BTH involvement in the induction of the thiamine metabolism was revealed in tomatoes.
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- 2022
23. Analysis of co-isogenic prion protein deficient mice reveals behavioral deficits, learning impairment, and enhanced hippocampal excitability
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Matamoros-Angles, A, Hervera, A, Soriano, J, Martí, E, Carulla, P, Llorens, F, Nuvolone, M, Aguzzi, Adriano, Ferrer, I, Gruart, A, Delgado-García, J M, Del Río, J A, University of Zurich, Delgado-García, J M, and Del Río, J A
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Physiology ,animal diseases ,Long-Term Potentiation ,Plant Science ,Anxiety ,Hippocampus ,1309 Developmental Biology ,1307 Cell Biology ,Mice ,0302 clinical medicine ,1315 Structural Biology ,Structural Biology ,1110 Plant Science ,Biology (General) ,Mice, Knockout ,0303 health sciences ,Ecology ,1305 Biotechnology ,LTP ,Hippocampus (Brain) ,General Agricultural and Biological Sciences ,Research Article ,Glicoproteïnes ,Biotechnology ,Prions ,QH301-705.5 ,Evolution ,Hipocamp (Cervell) ,10208 Institute of Neuropathology ,Cellular prion protein ,610 Medicine & health ,Genetics and Molecular Biology ,1100 General Agricultural and Biological Sciences ,Prion Proteins ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,Behavior and Systematics ,1300 General Biochemistry, Genetics and Molecular Biology ,mental disorders ,Animals ,Ecology, Evolution, Behavior and Systematics ,Glycoproteins ,030304 developmental biology ,Behavior ,Epilepsy ,1314 Physiology ,Cell Biology ,nervous system diseases ,1105 Ecology, Evolution, Behavior and Systematics ,General Biochemistry ,570 Life sciences ,biology ,030217 neurology & neurosurgery ,Developmental Biology - Abstract
Background: Cellular prion protein (PrPC) is a cell surface GPI-anchored protein, usually known for its role in the pathogenesis of human and animal prionopathies. However, increasing knowledge about the participation of PrPC in prion pathogenesis contrasts with puzzling data regarding its natural physiological role. PrPC is expressed in a number of tissues, including at high levels in the nervous system, especially in neurons and glial cells, and while previous studies have established a neuroprotective role, conflicting evidence for a synaptic function has revealed both reduced and enhanced long-term potentiation, and variable observations on memory, learning, and behavior. Such evidence has been confounded by the absence of an appropriate knock-out mouse model to dissect the biological relevance of PrPC, with some functions recently shown to be misattributed to PrPC due to the presence of genetic artifacts in mouse models. Here we elucidate the role of PrPC in the hippocampal circuitry and its related functions, such as learning and memory, using a recently available strictly co-isogenic Prnp0/0 mouse model (PrnpZH3/ZH3). Results: We performed behavioral and operant conditioning tests to evaluate memory and learning capabilities, with results showing decreased motility, impaired operant conditioning learning, and anxiety-related behavior in PrnpZH3/ZH3 animals. We also carried in vivo electrophysiological recordings on CA3-CA1 synapses in living behaving mice and monitored spontaneous neuronal firing and network formation in primary neuronal cultures of PrnpZH3/ZH3 vs wildtype mice. PrPC absence enhanced susceptibility to high-intensity stimulations and kainate-induced seizures. However, long-term potentiation (LTP) was not enhanced in the PrnpZH3/ZH3 hippocampus. In addition, we observed a delay in neuronal maturation and network formation in PrnpZH3/ZH3 cultures. Conclusion: Our results demonstrate that PrPC promotes neuronal network formation and connectivity. PrPC mediates synaptic function and protects the synapse from excitotoxic insults. Its deletion may underlie an epileptogenic-susceptible brain that fails to perform highly cognitive-demanding tasks such as associative learning and anxiety-like behaviors. This research was supported by PRPSEM Project with ref. RTI2018-099773-B-I00 from MCINN/AEI/10.13039/501100011033/ FEDER “Una manera de hacer Europa”, the CERCA Programme, and the Commission for Universities and Research of the Department of Innovation, Universities, and Enterprise of the Generalitat de Catalunya (SGR2017-648), CIBERNED (CMED2018-2) to JADR and IF. The project leading to these results received funding from the “la Caixa” Foundation (ID 100010434) under the agreement LCF/PR/HR19/52160007 and the María de Maeztu Unit of Excellence (Institute of Neurosciences, University of Barcelona) MDM-2017-0729 to JADR. JS was supported by FIS2016-78507-C2-2-P from (MCIU/FEDER/AEI), SGR2017-1061 from the Generalitat de Catalunya, and the European Union’s Horizon 2020 research and innovation program under the grant agreement No. 713140 (MESOBRAIN). Support was also received from MINECO (BFU2017-82375-R), and Junta de Andalucía (BIO-122, UPO-1250734, and P18-FR-823) grants to AG and JMDG. F.LL. was supported by Instituto Carlos III (grant PI19-00144). A.M-A. was supported by the Tatiana Pérez de Guzmán el Bueno Foundation.
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- 2022
24. Single-cell RNA sequencing of the retina in a model of retinitis pigmentosa reveals early responses to degeneration in rods and cones
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Karademir, Duygu, Todorova, Vyara, Ebner, Lynn J A, Samardzija, Marijana, Grimm, Christian, University of Zurich, and Karademir, Duygu
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10018 Ophthalmology Clinic ,genetic structures ,Physiology ,Evolution ,610 Medicine & health ,Genetics and Molecular Biology ,1100 General Agricultural and Biological Sciences ,Plant Science ,General Biochemistry, Genetics and Molecular Biology ,Retina ,1309 Developmental Biology ,1307 Cell Biology ,Mice ,1315 Structural Biology ,Behavior and Systematics ,Retinal Rod Photoreceptor Cells ,1300 General Biochemistry, Genetics and Molecular Biology ,Structural Biology ,1110 Plant Science ,Animals ,Ecology, Evolution, Behavior and Systematics ,Ecology ,Sequence Analysis, RNA ,1314 Physiology ,Cell Biology ,Disease Models, Animal ,1105 Ecology, Evolution, Behavior and Systematics ,General Biochemistry ,Retinal Cone Photoreceptor Cells ,1305 Biotechnology ,sense organs ,General Agricultural and Biological Sciences ,Retinitis Pigmentosa ,Developmental Biology ,Biotechnology - Abstract
BackgroundIn inherited retinal disorders such as retinitis pigmentosa (RP), rod photoreceptor-specific mutations cause primary rod degeneration that is followed by secondary cone death and loss of high-acuity vision. Mechanistic studies of retinal degeneration are challenging because of retinal heterogeneity. Moreover, the detection of early cone responses to rod death is especially difficult due to the paucity of cones in the retina. To resolve heterogeneity in the degenerating retina and investigate events in both types of photoreceptors during primary rod degeneration, we utilized droplet-based single-cell RNA sequencing in an RP mouse model,rd10.ResultsUsing trajectory analysis, we defined two consecutive phases of rod degeneration at P21, characterized by the early transient upregulation ofEgr1and the later induction ofCebpd. EGR1 was the transcription factor most significantly associated with the promoters of differentially regulated genes inEgr1-positive rods in silico. SilencingEgr1affected the expression levels of two of these genes in vitro. Degenerating rods exhibited changes associated with metabolism, neuroprotection, and modifications to synapses and microtubules.Egr1was also the most strongly upregulated transcript in cones. Its upregulation in cones accompanied potential early respiratory dysfunction and changes in signaling pathways. The expression pattern of EGR1 in the retina was dynamic during degeneration, with a transient increase of EGR1 immunoreactivity in both rods and cones during the early stages of their degenerative processes.ConclusionOur results identify early and late changes in degeneratingrd10rod photoreceptors and reveal early responses to rod degeneration in cones not expressing the disease-causing mutation, pointing to mechanisms relevant for secondary cone degeneration. In addition, our data implicate EGR1 as a potential key regulator of early degenerative events in rods and cones, providing a potential broad target for modulating photoreceptor degeneration.
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- 2022
25. Assessment of genetically modified maize MON 95379 for food and feed uses, under Regulation (EC) No 1829/2003 (application EFSA‐GMO‐NL‐2020‐170)
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Mullins, Ewen, Bresson, Jean‐Louis, Dalmay, Tamas, Dewhurst, Ian Crawford, Epstein, Michelle M, Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Moreno, Francisco Javier, Naegeli, Hanspeter, Nogué, Fabien, Rostoks, Nils, Sánchez Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Ardizzone, Michele, Camargo, Ana M, De Sanctis, Giacomo, Fernandez, Antonio, Gennaro, Andrea, Gomez Ruiz, Jose Angel, Goumperis, Tilemachos, Kagkli, Dafni Maria, Lenzi, Paolo, Neri, Franco Maria, Raffaello, Tommaso, Streissl, Franz, and University of Zurich
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Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Published
- 2022
26. Assessment of genetically modified maize DP4114 × MON 89034 × MON 87411 × DAS‐40278‐9 and subcombinations, for food and feed uses, under Regulation (EC) No 1829/2003 (application EFSA GMO‐NL‐2020‐171)
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EFSA Panel on Genetically Modified Organisms (GMO), Mullins, Ewen, Bresson, Jean-Louis, Dalmay, Tamas, Crawford Dewhurst, Ian, Epstein, Michelle M., Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Moreno, F. Javier, Naegeli, Hanspeter, Nogué, Fabien, Rostoks, Nils, Sánchez Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Ardizzone, Michele, Camargo, Ana M., De Sanctis, Giacomo, Fernandez Dumont, Antonio, Gennaro, Andrea, Gómez-Ruiz, José Ángel, Goumperis, Tilemachos, Kagkli, Dafni Maria, Neri, Franco Maria, Papadopoulou, Nikoletta, Raffaello, Tommaso, Streissl, Franz, and University of Zurich
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Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Abstract
Genetically modified maize DP4114 × MON 89034 × MON 87411 × DAS-40278-9 was developed by crossing to combine four single events: DP4114, MON 89034, MON 87411 and DAS-40278-9. The GMO Panel previously assessed the four single maize events and two of the subcombinations and did not identify safety concerns. No new data on the single maize events or the assessed subcombinations were identified that could lead to modification of the original conclusions on their safety. The molecular characterisation, comparative analysis (agronomic, phenotypic and compositional characteristics) and the outcome of the toxicological, allergenicity and nutritional assessment indicate that the combination of the single maize events and of the newly expressed proteins in the four-event stack maize does not give rise to food and feed safety and nutritional concerns. Therefore, no post-market monitoring of food/feed is considered necessary. In the case of accidental release of viable four-event stack maize grains into the environment, this would not raise environmental safety concerns. The GMO Panel assessed the likelihood of interactions among the single events in eight of the maize subcombinations not previously assessed and concludes that these are expected to be as safe as the single events, the previously assessed subcombinations and the four-event stack maize. The post-market environmental monitoring plan and reporting intervals are in line with the intended uses of maize DP4114 × MON 89034 × MON 87411 × DAS-40278-9. Post-market monitoring of food/feed is not considered necessary. The GMO Panel concludes that the four-event stack maize and its subcombinations are as safe as its non-GM comparator and the tested non-GM maize varieties with respect to potential effects on human and animal health and the environment.
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- 2022
27. Assessment of genetically modified oilseed rape GT73 for placing on the market of isolated seed protein for food under Regulation (EC) No 1829/2003 (application EFSA‐GMO‐RX‐026/2)
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Mullins, Ewen, Bresson, Jean‐Louis, Dalmay, Tamas, Dewhurst, Ian Crawford, Epstein, Michelle M, Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Moreno, Francisco Javier, Naegeli, Hanspeter, Nogué, Fabien, Rostoks, Nils, Sánchez Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Fernandez, Antonio, Gennaro, Andrea, Gomez Ruiz, Jose Angel, Lenzi, Paolo, Martin Camargo, Ana, Lewandowska, Aleksandra, Piffanelli, Pietro, Raffaello, Tommaso, and University of Zurich
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Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Published
- 2022
28. Rare transposable elements challenge the prevailing view of transposition dynamics in plants
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Anne C. Roulin, Michael Thieme, Christoph Stritt, University of Zurich, and Roulin, Anne C
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Transposable element ,Evolution ,Lineage (evolution) ,Retrotransposon ,Plant Science ,580 Plants (Botany) ,Biology ,Genome ,Evolution, Molecular ,UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,Transposition (music) ,Intragenomic conflict ,10126 Department of Plant and Microbial Biology ,1311 Genetics ,Behavior and Systematics ,1110 Plant Science ,Genetics ,10211 Zurich-Basel Plant Science Center ,Genome size ,Ecology, Evolution, Behavior and Systematics ,Ecology ,food and beverages ,Replicate ,Plants ,1105 Ecology, Evolution, Behavior and Systematics ,Evolutionary biology ,DNA Transposable Elements - Abstract
Transposable elements (TEs) in plants are best known for their ability to inflate genome size and their potential effects on host phenotypes. In this essay, we suggest that many TEs do none of these things, but survive and replicate inconspicuously in the host genome. Transposable elements are frequently depicted as “invasive” sequences with a tendency to replicate in “bursts” as soon as the silencing mechanisms keeping them in check are relaxed. While massive amplifications do occur and have intriguing consequences, this way of thinking about TEs, guided by analogies from horizontally transmitted pathogens, can be misleading. By means of the example of Alesia elements—a retrotransposon lineage present at low copy numbers throughout angiosperms—we propose a scenario of vertical descent in which TEs are maintained in evolution not because of their ability to invade and amplify, but because they have evolved strategies to persist at low copy numbers. Studying the adaptive traits of rare TEs across species promises intriguing insights into the world of intragenomic conflict and a more nuanced view of transposition dynamics in plants.
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- 2021
29. Updated scientific opinion on plants developed through cisgenesis and intragenesis
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EFSA Panel on Genetically Modified Organisms (GMO), Mullins, Ewen, Bresson, Jean-Louis, Dalmay, Tamas, Crawford Dewhurst, Ian, Epstein, Michelle M., Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Moreno, F. Javier, Naegeli, Hanspeter, Nogué, Fabien, Sánchez Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Casacuberta, Josep, Fernandez Dumont, Antonio, Gennaro, Andrea, Lenzi, Paolo, Lewandowska, Aleksandra, Muñoz Guajardo, Irene Pilar, Papadopoulou, Nikoletta, Rostoks, Nils, University of Zurich, and European Food Safety Authority
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Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Abstract
In 2012, EFSA issued an opinion on plants developed through cisgenesis and intragenesis. With the development of New Genomic Techniques (NGTs) in the last decade, cisgenic and intragenic plants can now be obtained with the insertion of a desired sequence in a precise location of the genome. EFSA has been requested by European Commission to provide an updated scientific opinion on the safety and the risk assessment of plants developed through cisgenesis and intragenesis, in order to (i) identify potential risks, comparing them with those posed by plants obtained by conventional breeding and Established Genomic Techniques (EGTs) and (ii) to determine the applicability of current guidelines for the risk assessment of cisgenic and intragenic plants. The conclusions of the previous EFSA opinion were reviewed, taking into consideration the new guidelines and the recent literature. The GMO panel concludes that no new risks are identified in cisgenic and intragenic plants obtained with NGTs, as compared with those already considered for plants obtained with conventional breeding and EGTs. There are no new data since the publication of the 2012 EFSA opinion that would challenge the conclusions raised in that document. The conclusions of the EFSA 2012 Scientific Opinion remain valid. The EFSA GMO Panel reiterates from these conclusions that with respect to the source of DNA and the safety of the gene product, the hazards arising from the use of a related plant-derived gene by cisgenesis are similar to those from conventional plant breeding, whereas additional hazards may arise for intragenic plants. Furthermore, the EFSA GMO Panel considers that cisgenesis and intragenesis make use of the same transformation techniques as transgenesis, and therefore, with respect to the alterations to the host genome, cisgenic, intragenic and transgenic plants obtained by random insertion do not cause different hazards. Compared to that, the use of NGTs reduces the risks associated with potential unintended modifications of the host genome. Thus, fewer requirements may be needed for the assessment of cisgenic and intragenic plants obtained through NGTs, due to site-directed integration of the added genetic material. Moreover, the GMO panel concludes that the current guidelines are partially applicable and sufficient. On a case-by-case basis, a lesser amount of data might be needed for the risk assessment of cisgenic or intragenic plants obtained through NGTs.
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- 2022
30. Characterization of complex photosynthetic pigment profiles in European deciduous tree leaves by sequential extraction and reversed-phase high-performance liquid chromatography
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Petibon, Fanny, Wiesenberg, Guido L B, University of Zurich, Petibon, Fanny, and Wiesenberg, Guido L B
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10122 Institute of Geography ,1110 Plant Science ,Plant Science ,910 Geography & travel - Published
- 2022
31. Assessment of genetically modified oilseed rape GT73 for renewal authorisation under Regulation (EC) No 1829/2003 (application EFSA‐GMO‐RX‐026/1)
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Mullins, Ewen, Bresson, Jean‐Louis, Dalmay, Tamas, Dewhurst, Ian Crawford, Epstein, Michelle M, Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Moreno, Francisco Javier, Naegeli, Hanspeter, Nogué, Fabien, Rostoks, Nils, Sánchez‐Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Camargo, Ana M, Goumperis, Tilemachos, Lenzi, Paolo, Lewandowska, Aleksandra, Raffaello, Tommaso, and University of Zurich
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Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Published
- 2022
32. Species richness, functional traits and climate interactively affect tree survival in a large forest biodiversity experiment
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Xiaojuan Liu, Yuanyuan Huang, Lei Chen, Shan Li, Franca J. Bongers, Nadia Castro‐Izaguirre, Yu Liang, Bo Yang, Yuxin Chen, Florian Schnabel, Ting Tang, Yujie Xue, Stefan Trogisch, Michael Staab, Helge Bruelheide, Bernhard Schmid, Keping Ma, University of Zurich, Schmid, Bernhard, and Ma, Keping
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10127 Institute of Evolutionary Biology and Environmental Studies ,10122 Institute of Geography ,1105 Ecology, Evolution, Behavior and Systematics ,Ecology ,Behavior and Systematics ,Evolution ,1110 Plant Science ,Plant Science ,910 Geography & travel ,2303 Ecology ,Ecology, Evolution, Behavior and Systematics - Published
- 2022
33. Ropiness in Bread—A Re-Emerging Spoilage Phenomenon
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Nicola Pacher, Johanna Burtscher, Sophia Johler, Danai Etter, Denisse Bender, Lars Fieseler, Konrad J. Domig, University of Zurich, and Burtscher, Johanna
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Health (social science) ,Rope ,Spoilage ,2404 Microbiology ,610 Medicine & health ,Bread ,Plant Science ,Health Professions (miscellaneous) ,Microbiology ,3601 Health Professions (miscellaneous) ,Wheat ,1110 Plant Science ,570 Life sciences ,biology ,Fadenziehen ,Bacillus spp ,3306 Health (social science) ,664: Lebensmitteltechnologie ,10082 Institute of Food Safety and Hygiene ,1106 Food Science ,Food Science - Abstract
As bread is a very important staple food, its spoilage threatens global food security. Ropy bread spoilage manifests in sticky and stringy degradation of the crumb, slime formation, discoloration, and an odor reminiscent of rotting fruit. Increasing consumer demand for preservative-free products and global warming may increase the occurrence of ropy spoilage. Bacillus amyloliquefaciens, B. subtilis, B. licheniformis, the B. cereus group, B. pumilus, B. sonorensis, Cytobacillus firmus, Niallia circulans, Paenibacillus polymyxa, and Priestia megaterium were reported to cause ropiness in bread. Process hygiene does not prevent ropy spoilage, as contamination of flour with these Bacillus species is unavoidable due to their occurrence as a part of the endophytic commensal microbiota of wheat and the formation of heat-stable endospores that are not inactivated during processing, baking, or storage. To date, the underlying mechanisms behind ropy bread spoilage remain unclear, high-throughput screening tools to identify rope-forming bacteria are missing, and only a limited number of strategies to reduce rope spoilage were described. This review provides a current overview on (i) routes of entry of Bacillus endospores into bread, (ii) bacterial species implicated in rope spoilage, (iii) factors influencing rope development, and (iv) methods used to assess bacterial rope-forming potential. Finally, we pinpoint key gaps in knowledge and related challenges, as well as future research questions.
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- 2022
34. Combined nanometric and phylogenetic analysis of unique endocytic compartments in Giardia lamblia sheds light on the evolution of endocytosis in Metamonada
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Rui Santos, Ásgeir Ástvaldsson, Shweta V. Pipaliya, Jon Paulin Zumthor, Joel B. Dacks, Staffan Svärd, Adrian B. Hehl, Carmen Faso, University of Zurich, and Faso, Carmen
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10078 Institute of Parasitology ,Volumetric electron microscopy ,10017 Institute of Anatomy ,Physiology ,610 Medicine & health ,1100 General Agricultural and Biological Sciences ,Plant Science ,Microbiology ,General Biochemistry, Genetics and Molecular Biology ,Peripheral endocytic compartments (PECs) ,1309 Developmental Biology ,1307 Cell Biology ,1315 Structural Biology ,1300 General Biochemistry, Genetics and Molecular Biology ,Structural Biology ,1110 Plant Science ,Peripheral vacuoles ,Spironucleus ,Phylogeny ,Ecology, Evolution, Behavior and Systematics ,Giardia ,Metamonada ,1314 Physiology ,Super-resolution microscopy (SRM) ,Cell Biology ,500 Science ,Clathrin ,Endocytosis ,Mikrobiologi ,1105 Ecology, Evolution, Behavior and Systematics ,Tritrichomonas ,Clathrin Heavy Chains ,1305 Biotechnology ,570 Life sciences ,biology ,Clathrin Light Chains ,Giardia lamblia ,General Agricultural and Biological Sciences ,Convergent evolution ,Developmental Biology ,Biotechnology - Abstract
Background Giardia lamblia, a parasitic protist of the Metamonada supergroup, has evolved one of the most diverged endocytic compartment systems investigated so far. Peripheral endocytic compartments, currently known as peripheral vesicles or vacuoles (PVs), perform bulk uptake of fluid phase material which is then digested and sorted either to the cell cytosol or back to the extracellular space. Results Here, we present a quantitative morphological characterization of these organelles using volumetric electron microscopy and super-resolution microscopy (SRM). We defined a morphological classification for the heterogenous population of PVs and performed a comparative analysis of PVs and endosome-like organelles in representatives of phylogenetically related taxa, Spironucleus spp. and Tritrichomonas foetus. To investigate the as-yet insufficiently understood connection between PVs and clathrin assemblies in G. lamblia, we further performed an in-depth search for two key elements of the endocytic machinery, clathrin heavy chain (CHC) and clathrin light chain (CLC), across different lineages in Metamonada. Our data point to the loss of a bona fide CLC in the last Fornicata common ancestor (LFCA) with the emergence of a protein analogous to CLC (GlACLC) in the Giardia genus. Finally, the location of clathrin in the various compartments was quantified. Conclusions Taken together, this provides the first comprehensive nanometric view of Giardia’s endocytic system architecture and sheds light on the evolution of GlACLC analogues in the Fornicata supergroup and, specific to Giardia, as a possible adaptation to the formation and maintenance of stable clathrin assemblies at PVs.
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- 2022
35. INFOGEST Digestion Assay of Raw and Roasted Hazelnuts and Its Impact on Allergens and Their IgE Binding Activity
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Ivana Prodić, Katarina Smiljanić, Christoph Nagl, Barbara Ballmer-Weber, Karin Hoffmann-Sommergruber, Tanja Ćirković Veličković, University of Zurich, Hoffmann-Sommergruber, Karin, and Veličković, Tanja Ćirković
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gastric digestion ,Health (social science) ,Cor a 9 ,Cor a 8 ,2404 Microbiology ,10177 Dermatology Clinic ,610 Medicine & health ,Plant Science ,lipid-protein interactio ,Health Professions (miscellaneous) ,Microbiology ,hazelnut allergens ,IgE binding ,lipid-protein interaction ,3601 Health Professions (miscellaneous) ,1110 Plant Science ,3306 Health (social science) ,1106 Food Science ,Food Science - Abstract
Most of the food allergens sensitized via the gastrointestinal tract resist thermal treatments and digestion, particularly digestion by pepsin. Roasted hazelnuts are more commonly consumed than raw ones. Since no studies have characterized gastric digestion protein fragments of raw and roasted hazelnuts nor their IgE binding properties, we compared these aspects of raw and roasted hazelnuts’ gastric digesta obtained by INFOGEST protocol. Their electrophoretically resolved profiles were probed with hazelnut allergic patients’ sera in 1D and 2D immunoblots. Electrophoretic profiles demonstrated pepsin digestion of all hazelnut allergens to varying extents. While 2D immunoblots indicated that roasting slightly reduced allergenicity, IgE ELISA with the pool of sera showed a slight significant (10%) increase in IgE binding in both gastric digesta. Cor a 9 isolated from the raw and roasted hazelnuts, characterized by far and near CD, remained stable after roasting, with preserved IgE reactivity. Its immunoreactivity contribution by inhibitory ELISA was noticeable in raw and roasted hazelnut digesta; its activity was slightly stronger in the roasted preparations. Roasting has a visible impact on proteins; however, it did not affect overall IgE reactivity. Gastric digestion slightly increases the overall IgE reactivity in raw and roasted hazelnuts, and may therefore impact the profiles of allergens and their fragments available to interact with the immune system in the small intestine. © 2022 by the authors.
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- 2022
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36. Historical context modifies plant diversity–community productivity relationships in alpine grassland
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Shan Luo, Richard D. Bardgett, Bernhard Schmid, David Johnson, Kenny Png, Urs Schaffner, Huakun Zhou, Buqing Yao, Xiangyang Hou, Nicholas J. Ostle, University of Zurich, Luo, Shan, and Bardgett, Richard D
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10122 Institute of Geography ,1105 Ecology, Evolution, Behavior and Systematics ,Ecology ,Behavior and Systematics ,Evolution ,1110 Plant Science ,Plant Science ,910 Geography & travel ,2303 Ecology ,Ecology, Evolution, Behavior and Systematics - Abstract
While most studies yield positive relationships between biodiversity (B) and ecosystem functioning (EF), awareness is growing that BEF relationships can vary with ecological context. The awareness has led to increased efforts to understand how contemporary environmental context modifies BEF relationships, but the role of historical context, and the mechanisms by which it may influence biodiversity effects, remains poorly understood. We examined how historical context alters plant diversity–community productivity relationships via plant species interactions in alpine grassland. We also tested how historical context modifies interactions between plants and arbuscular mycorrhizal (AM) fungi, which can potentially mediate the above processes. We studied biodiversity effects on plant community productivity at two grassland sites with different histories related to grazing intensity—heavy versus light livestock grazing—but similar current management. We assembled experimental communities of identical species composition with plants from each of the two sites in disturbed soil from a contemporary heavily grazed grassland, ranging in species richness from one to two, three and six species. Moreover, we carried out a mycorrhizal hyphae-exclusion experiment to test how plant interactions with AM fungi influence plant responses to historical context. We detected a significantly positive diversity–productivity relationship that was driven by complementarity effects in communities composed of plants from the site without heavy-grazing history, but no such relationship in plant communities composed of plants from the site with heavy-grazing history. Plants from the site with heavy-grazing history had increased competitive ability and increased yields in low-diversity communities but disrupted complementarity effects in high-diversity communities. Moreover, plants of one species from the site with heavy-grazing history benefitted more from AM fungal communities than did plants from the site without such history. Synthesis. Using the same experimental design and species, communities assembled by plants from two sites with different historical contexts showed different plant diversity–community productivity relationships. Our results suggest that historical context can alter plant diversity–community productivity relationships via plant species interactions and potentially plant–soil interactions. Therefore, considering historical contexts of ecological communities is of importance for advancing our understanding of long-term impacts of anthropogenic disturbance on ecosystem functioning.
- Published
- 2022
37. An optimised transformation protocol for Anthoceros agrestis and three more hornwort species
- Author
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Manuel Waller, Eftychios Frangedakis, Alan Marron, Susanna Sauret-Gueto, Jenna Rever, Cyrus Raja Rubenstein Sabbagh, Julian M. Hibberd, Jim Haseloff, Karen Renzaglia, Péter Szövényi, University of Zurich, Frangedakis, Eftychios, and Szövényi, Péter
- Subjects
UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,1307 Cell Biology ,10121 Department of Systematic and Evolutionary Botany ,1311 Genetics ,1110 Plant Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center - Abstract
Land plants comprise two large monophyletic lineages, the vascular plants and the bryophytes, which diverged from their most recent common ancestor approximately 480 million years ago. Of the three lineages of bryophytes, only the mosses and the liverworts are systematically investigated, while the hornworts are understudied. Despite their importance for understanding fundamental questions of land plant evolution, they only recently became amenable to experimental investigation, with Anthoceros agrestis being developed as a hornwort model system. Availability of a high quality genome assembly and a recently developed genetic transformation technique makes A. agrestis an attractive model species for hornworts. Here we describe an updated and optimised transformation protocol for A. agrestis which can be successfully used to genetically modify one more strain of A. agrestis and three more hornwort species, Anthoceros punctatus, Leiosporoceros dussi and Phaeoceros carolinianus. The new transformation method is less laborious, faster and results in the generation of greatly increased numbers of transformants compared to the previous method. We have also developed a new selection marker for transformation. Finally, we report the development of a set of different cellular localisation signal peptides for hornworts providing new tools to better understand hornwort cell biology.
- Published
- 2022
38. Assessment of genetically modified maize MON 89034 × 1507 × MIR162 × NK603 × DAS‐40278‐9 for food and feed uses, under regulation (EC) No 1829/2003 (application EFSA‐GMO‐NL‐2018‐151)
- Author
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Mullins, Ewen, Bresson, Jean‐Louis, Dalmay, Tamas, Dewhurst, Ian Crawford, Epstein, Michelle M, Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Naegeli, Hanspeter, Moreno, Francisco Javier, Nogué, Fabien, Rostoks, Nils, Sánchez Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Ardizzone, Michele, De Sanctis, Giacomo, Dumont, Antonio Fernandez, Federici, Silvia, Gennaro, Andrea, Gomez Ruiz, Jose Angel, Goumperis, Tilemachos, Kagkli, Dafni Maria, Lanzoni, Anna, Lenzi, Paolo, Lewandowska, Aleksandra, Neri, Franco Maria, Paraskevopoulos, Konstantinos, et al, and University of Zurich
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Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Published
- 2022
39. Effects of microenvironmental factors on the diversity and composition of fern and orchid assemblages in an Andean paramo in Peru
- Author
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Acuña-Tarazona, Margoth, Mehltreter, Klaus, Toledo-Aceves, Tarin, Sosa, Vinicio J, Flores-Palacios, Alejandro, Kessler, Michael, University of Zurich, and Acuña-Tarazona, Margoth
- Subjects
10121 Department of Systematic and Evolutionary Botany ,1105 Ecology, Evolution, Behavior and Systematics ,Ecology ,Behavior and Systematics ,Evolution ,1110 Plant Science ,Plant Science ,580 Plants (Botany) ,10211 Zurich-Basel Plant Science Center ,2303 Ecology ,Ecology, Evolution, Behavior and Systematics - Published
- 2022
40. Stomatal development in the cycad family Zamiaceae
- Author
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Paula J. Rudall, Maria Rosaria Barone Lumaga, Mario Coiro, University of Zurich, Coiro, Mario, Coiro, M., Barone Lumaga, M. R., and Rudall, P. J.
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Ecophysiology ,Plant Science ,Development ,580 Plants (Botany) ,AcademicSubjects/SCI01080 ,Bowenia ,Gymnosperm ,1110 Plant Science ,10211 Zurich-Basel Plant Science Center ,Cycad ,Ceratozamia ,Stomata ,Phylogeny ,Seed ,biology ,AcademicSubjects/SCI01210 ,Fossils ,Zamia ,Macrozamia ,AcademicSubjects/SCI01130 ,Zamiaceae ,Fossil ,Original Articles ,biology.organism_classification ,Stangeria ,10121 Department of Systematic and Evolutionary Botany ,Dioon ,Bennettitales ,Cycadopsida ,Evolutionary biology ,Seeds - Abstract
Background and Aims The gymnosperm order Cycadales is pivotal to our understanding of seed-plant phylogeny because of its phylogenetic placement close to the root node of extant spermatophytes and its combination of both derived and plesiomorphic character states. Although widely considered a ‘living fossil’ group, extant cycads display a high degree of morphological and anatomical variation. We investigate stomatal development in Zamiaceae to evaluate variation within the order and homologies between cycads and other seed plants. Methods Leaflets of seven species across five genera representing all major clades of Zamiaceae were examined at various stages of development using light microscopy and confocal microscopy. Key Results All genera examined have lateral subsidiary cells of perigenous origin that differ from other pavement cells in mature leaflets and could have a role in stomatal physiology. Early epidermal patterning in a ‘quartet’ arrangement occurs in Ceratozamia, Zamia and Stangeria. Distal encircling cells, which are sclerified at maturity, are present in all genera except Bowenia, which shows relatively rapid elongation and differentiation of the pavement cells during leaflet development. Conclusions Stomatal structure and development in Zamiaceae highlights some traits that are plesiomorphic in seed plants, including the presence of perigenous encircling subsidiary cells, and reveals a clear difference between the developmental trajectories of cycads and Bennettitales. Our study also shows an unexpected degree of variation among subclades in the family, potentially linked to differences in leaflet development and suggesting convergent evolution in cycads.
- Published
- 2021
41. The first step into phenolic metabolism in the hornwort Anthoceros agrestis: molecular and biochemical characterization of two phenylalanine ammonia-lyase isoforms
- Author
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Pezeshki, Soheil, Warmbier, Ina, Busch, Tobias, Bauerbach, Elke, Szövenyi, Peter, Petersen, Maike, University of Zurich, and Petersen, Maike
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Phenylalanine ,Anthocerotophyta ,Plant Science ,580 Plants (Botany) ,10121 Department of Systematic and Evolutionary Botany ,Phenols ,1311 Genetics ,1110 Plant Science ,Genetics ,Protein Isoforms ,Tyrosine ,Histidine ,10211 Zurich-Basel Plant Science Center ,Phylogeny ,Phenylalanine Ammonia-Lyase - Abstract
Main conclusion Two isoforms of phenylalanine ammonia-lyase (PAL) have been isolated as cDNA sequences from the hornwort Anthoceros agrestis. The encoded enzymes convert l-phenylalanine and to lower extents l-tyrosine and l-histidine. Thus, the functional presence of the general phenylpropanoid pathway in one of the earliest land plant groups is established. Abstract The hornwort Anthoceros agrestis has an elaborated phenolic metabolism resulting in phenolic compounds, such as rosmarinic acid or megacerotonic acid. The general phenylpropanoid pathway is involved in the biosynthesis of these compounds. Two phenylalanine ammonia-lyase (PAL) genes, AaPAL1 and AaPAL2, have been identified in Anthoceros agrestis and the protein with an N-terminal 6xHis-tag heterologously synthesized in Escherichia coli for a full biochemical characterization. Both PAL proteins accept l-phenylalanine, l-tyrosine as well as l-histidine as substrates, although the activity is explicitly the highest with l-phenylalanine. Km values as well as catalytic efficiencies were determined for phenylalanine (Km AaPAL1 39 µM, AaPAL2 18 µM) and tyrosine (Km AaPAL1 3.3 mM, AaPAL2 3.5 mM). In suspension cultures of Anthoceros agrestis, PAL genes were transcribed in parallel to rosmarinic acid (RA) accumulation and both showed highest abundance in the early growth phase. In a phylogenetic tree, both AaPAL amino acid sequences grouped within a clade with PAL amino acid sequences of diverse origin ranging from non-vascular to vascular plants, while most PALs from eudicots and monocots were mainly found in two other clades. The similarity of the hornwort PAL amino acid sequences to PAL sequences from vascular plants is more than 80% showing a strong conservation within the land plants. With this characterization of PALs from Anthoceros agrestis together with former investigations concerning cinnamic acid 4-hydroxylase and 4-coumaric acid CoA-ligase, the functional presence of the general phenylpropanoid pathway in this hornwort is proven.
- Published
- 2022
42. Plant biodiversity promotes sustainable agriculture directly and via belowground effects
- Author
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Seraina L. Cappelli, Luiz A. Domeignoz-Horta, Viviana Loaiza, Anna-Liisa Laine, University of Zurich, and Cappelli, Seraina L
- Subjects
Soil ,10127 Institute of Evolutionary Biology and Environmental Studies ,1110 Plant Science ,570 Life sciences ,biology ,590 Animals (Zoology) ,Agriculture ,Biodiversity ,Plant Science ,Plants ,Ecosystem - Abstract
While the positive relationship between plant biodiversity and ecosystem functioning (BEF) is well established, the extent to which this is mediated via belowground microbial processes is poorly understood. Growing evidence suggests that plant community structure influences soil microbial diversity, which in turn promotes functions desired for sustainable agriculture. Here, we outline the 'plant-directed' and soil microbe-mediated mechanisms expected to promote positive BEF. We identify how this knowledge can be utilized in plant diversification schemes to maximize ecosystem functioning in agroecosystems, which are typically species poor and sensitive to biotic and abiotic stressors. In the face of resource overexploitation and global change, bridging the gaps between biodiversity science and agricultural practices is crucial to meet food security in the Anthropocene.
- Published
- 2022
43. Assessment of genetically modified oilseed rape MON 94100 for food and feed uses, under regulation (EC) No 1829/2003 (application EFSA‐GMO‐NL‐2020‐169)
- Author
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Mullins, Ewen, Bresson, Jean‐Louis, Dalmay, Tamas, Dewhurst, Ian Crawford, Epstein, Michelle M, Firbank, Leslie George, Guerche, Philippe, Hejatko, Jan, Moreno, Francisco Javier, Naegeli, Hanspeter, Nogué, Fabien, Rostoks, Nils, Sánchez Serrano, Jose Juan, Savoini, Giovanni, Veromann, Eve, Veronesi, Fabio, Ardizzone, Michele, De Sanctis, Giacomo, Federici, Silvia, Fernandez Dumont, Antonio, Gennaro, Andrea, Gomez Ruiz, Jose Angel, Goumperis, Tilemachos, Lanzoni, Anna, Lenzi, Paolo, Neri, Franco Maria, Papadopoulou, Nikoletta, Raffaello, Tommaso, Streissl, Franz, and University of Zurich
- Subjects
Veterinary (miscellaneous) ,2404 Microbiology ,2405 Parasitology ,10079 Institute of Veterinary Pharmacology and Toxicology ,Plant Science ,Microbiology ,3401 Veterinary (miscellaneous) ,1110 Plant Science ,570 Life sciences ,biology ,Animal Science and Zoology ,Parasitology ,1103 Animal Science and Zoology ,1106 Food Science ,Food Science - Published
- 2022
44. An evergreen mind and a heart for the colors of fall
- Author
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Aubry, Sylvain, Christ, Bastien, Kräutler, Bernhard, Martinoia, Enrico, Thomas, Howard, Zipfel, Cyril, University of Zurich, Dietz, Karl-Josef, and Aubry, Sylvain
- Subjects
Chlorophyll ,0106 biological sciences ,0301 basic medicine ,senescence ,Chlorophyll catabolism ,Physiology ,Color ,Plant Science ,580 Plants (Botany) ,Biology ,eXtra Botany ,01 natural sciences ,03 medical and health sciences ,chemistry.chemical_compound ,10126 Department of Plant and Microbial Biology ,1110 Plant Science ,Botany ,10211 Zurich-Basel Plant Science Center ,plastid ,Degradation pathway ,phyllobilin ,Plant senescence ,vacuole ,AcademicSubjects/SCI01210 ,1314 Physiology ,Expert Views ,Evergreen ,Plant Leaves ,030104 developmental biology ,Tetrapyrroles ,chemistry ,transporter ,Chlorophyll degradation ,010606 plant biology & botany - Abstract
Chlorophyll breakdown is a fundamental process in nature. The elucidation of the involved pathways was the outstanding scientific achievement of the late Stefan Hörtensteiner, to whom this paper is dedicated., With the finest biochemical and molecular approaches, convincing explorative strategies, and long-term vision, Stefan Hörtensteiner succeeded in elucidating the biochemical pathway responsible for chlorophyll degradation. After having contributed to the identification of key chlorophyll degradation products in the course of the past 25 years, he gradually identified and characterized most of the crucial players in the PAO/phyllobilin degradation pathway of chlorophyll. He was one of the brightest plant biochemists of his generation, and his work opened doors to a better understanding of plant senescence, tetrapyrrole homeostasis, and their complex regulation. He sadly passed away on 5 December 2020, aged 57.
- Published
- 2021
45. Humidity and high temperature are important for predicting fungal disease outbreaks worldwide
- Author
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S. Franz Bender, Ferran Romero, Marcel G. A. van der Heijden, Florian Walder, Sabrina Cazzato, Susanne Vogelgsang, University of Zurich, Romero, Ferran, and van der Heijden, Marcel G A
- Subjects
Veterinary medicine ,Hot Temperature ,Physiology ,Temperature ,Outbreak ,Humidity ,1314 Physiology ,Plant Science ,580 Plants (Botany) ,Biology ,Disease Outbreaks ,Fungal disease ,Plant science ,10126 Department of Plant and Microbial Biology ,Mycoses ,1110 Plant Science ,10211 Zurich-Basel Plant Science Center - Published
- 2021
46. GDSL-domain proteins have key roles in suberin polymerization and degradation
- Author
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Cristovāo De Jesus Vieira Teixeira, Damien De Bellis, Emanuel Schmid-Siegert, Kay Gully, Tonni Grube Andersen, Niko Geldner, Valérie Dénervaud Tendon, Joop E.M. Vermeer, Sandra Calderon, Vinay Shekhar, Christiane Nawrath, Sylvain Pradervand, Robertas Ursache, University of Zurich, Ursache, Robertas, Geldner, Niko, and Vermeer, Joop E M
- Subjects
0106 biological sciences ,0301 basic medicine ,Chemistry ,fungi ,Protein domain ,food and beverages ,Plant Science ,580 Plants (Botany) ,01 natural sciences ,Cell biology ,Cell wall ,03 medical and health sciences ,chemistry.chemical_compound ,030104 developmental biology ,10126 Department of Plant and Microbial Biology ,Suberin ,1110 Plant Science ,Extracellular ,Lignin ,Endodermis ,10211 Zurich-Basel Plant Science Center ,Casparian strip ,Lateral root formation ,010606 plant biology & botany - Abstract
Plant roots acquire nutrients and water while managing interactions with the soil microbiota. The root endodermis provides an extracellular diffusion barrier through a network of lignified cell walls called Casparian strips, supported by subsequent formation of suberin lamellae. Whereas lignification is thought to be irreversible, suberin lamellae display plasticity, which is crucial for root adaptative responses. Although suberin is a major plant polymer, fundamental aspects of its biosynthesis and turnover have remained obscure. Plants shape their root system via lateral root formation, an auxin-induced process requiring local breaking and re-sealing of endodermal lignin and suberin barriers. Here, we show that differentiated endodermal cells have a specific, auxin-mediated transcriptional response dominated by cell wall remodelling genes. We identified two sets of auxin-regulated GDSL lipases. One is required for suberin synthesis, while the other can drive suberin degradation. These enzymes have key roles in suberization, driving root suberin plasticity.
- Published
- 2021
47. Warming and elevated CO2 induced shifts in carbon partitioning and lipid composition within an ombrotrophic bog plant community
- Author
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Ofiti, Nicholas O E, Altermatt, Manuela, Petibon, Fanny, Warren, Jeffrey M, Malhotra, Avni, Hanson, Paul J, Wiesenberg, Guido L B, University of Zurich, and Ofiti, Nicholas O E
- Subjects
10122 Institute of Geography ,1105 Ecology, Evolution, Behavior and Systematics ,Ecology ,Behavior and Systematics ,Evolution ,1110 Plant Science ,1102 Agronomy and Crop Science ,Plant Science ,910 Geography & travel ,Agronomy and Crop Science ,Ecology, Evolution, Behavior and Systematics - Published
- 2023
48. Relative qPCR to quantify colonization of plant roots by arbuscular mycorrhizal fungi
- Author
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Natacha Bodenhausen, Marcel G. A. van der Heijden, Alain Y. Held, Klaus Schlaeppi, Gabriel Deslandes-Hérold, Jan Waelchli, University of Zurich, and Schlaeppi, Klaus
- Subjects
0106 biological sciences ,Evolution ,Soil biology ,Arbuscular mycorrhizal fungi ,Plant Science ,580 Plants (Botany) ,Relative quantification ,Plant Roots ,01 natural sciences ,Petunia ,Soil ,03 medical and health sciences ,10126 Department of Plant and Microbial Biology ,1311 Genetics ,Behavior and Systematics ,Mycorrhizae ,1110 Plant Science ,Botany ,1312 Molecular Biology ,Genetics ,Colonization ,10211 Zurich-Basel Plant Science Center ,Molecular Biology ,Soil Microbiology ,Ecology, Evolution, Behavior and Systematics ,030304 developmental biology ,Quantitative PCR (qPCR) ,0303 health sciences ,Ecology ,biology ,Plant roots ,Host (biology) ,fungi ,Fungi ,General Medicine ,Plants ,Amplicon ,biology.organism_classification ,Arbuscular mycorrhiza ,1105 Ecology, Evolution, Behavior and Systematics ,Crop combinations and interactions ,Original Article ,010606 plant biology & botany - Abstract
Arbuscular mycorrhiza fungi (AMF) are beneficial soil fungi that can promote the growth of their host plants. Accurate quantification of AMF in plant roots is important because the level of colonization is often indicative of the activity of these fungi. Root colonization is traditionally measured with microscopy methods which visualize fungal structures inside roots. Microscopy methods are labor-intensive, and results depend on the observer. In this study, we present a relative qPCR method to quantify AMF in which we normalized the AMF qPCR signal relative to a plant gene. First, we validated the primer pair AMG1F and AM1 in silico, and we show that these primers cover most AMF species present in plant roots without amplifying host DNA. Next, we compared the relative qPCR method with traditional microscopy based on a greenhouse experiment with Petunia plants that ranged from very high to very low levels of AMF root colonization. Finally, by sequencing the qPCR amplicons with MiSeq, we experimentally confirmed that the primer pair excludes plant DNA while amplifying mostly AMF. Most importantly, our relative qPCR approach was capable of discriminating quantitative differences in AMF root colonization and it strongly correlated (Spearman Rho = 0.875) with quantifications by traditional microscopy. Finally, we provide a balanced discussion about the strengths and weaknesses of microscopy and qPCR methods. In conclusion, the tested approach of relative qPCR presents a reliable alternative method to quantify AMF root colonization that is less operator-dependent than traditional microscopy and offers scalability to high-throughput analyses.
- Published
- 2021
49. A highly differentiated region of wheat chromosome 7AL encodes a Pm1a immune receptor that recognizes its corresponding AvrPm1a effector from Blumeria graminis
- Author
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Hana Šimková, Marion C. Müller, Jianbo Li, Dhara Bhatt, István Molnár, Raghvendra Sharma, Martin Mascher, Evans Lagudah, Kateřina Holušová, Seraina Schudel, Beat Keller, Lukas Kunz, Guotai Yu, Robert A. McIntosh, Tim Hewitt, Mick Ayliffe, Brande B. H. Wulff, Peng Zhang, Burkhard Steuernagel, Jianping Zhang, Sambasivam Periyannan, University of Zurich, McIntosh, Robert, Keller, Beat, Lagudah, Evans, and Zhang, Peng
- Subjects
0106 biological sciences ,0301 basic medicine ,Physiology ,Triticum aestivum ,Blumeria graminis ,Nicotiana benthamiana ,Plant Science ,580 Plants (Botany) ,01 natural sciences ,Genetic recombination ,Chromosomes ,NLR ,UFSP13-7 Evolution in Action: From Genomes to Ecosystems ,03 medical and health sciences ,AvrPm effectors ,10126 Department of Plant and Microbial Biology ,Ascomycota ,Gene cluster ,1110 Plant Science ,10211 Zurich-Basel Plant Science Center ,Gene ,Triticum ,chromosome sequencing ,Disease Resistance ,Plant Diseases ,2. Zero hunger ,Genetics ,Bgt ,EMS mutagenesis ,biology ,Full Paper ,Effector ,Research ,Chromosome ,food and beverages ,R gene ,1314 Physiology ,Full Papers ,biology.organism_classification ,Blumeria graminis f. sp. tritici ,030104 developmental biology ,010606 plant biology & botany - Abstract
Summary Pm1a, the first powdery mildew resistance gene described in wheat, is part of a complex resistance (R) gene cluster located in a distal region of chromosome 7AL that has suppressed genetic recombination.A nucleotide‐binding, leucine‐rich repeat (NLR) immune receptor gene was isolated using mutagenesis and R gene enrichment sequencing (MutRenSeq). Stable transformation confirmed Pm1a identity which induced a strong resistance phenotype in transgenic plants upon challenge with avirulent Blumeria graminis (wheat powdery mildew) pathogens.A high‐density genetic map of a B. graminis family segregating for Pm1a avirulence combined with pathogen genome resequencing and RNA sequencing (RNAseq) identified AvrPm1a effector gene candidates. In planta expression identified an effector, with an N terminal Y/FxC motif, that induced a strong hypersensitive response when co‐expressed with Pm1a in Nicotiana benthamiana.Single chromosome enrichment sequencing (ChromSeq) and assembly of chromosome 7A suggested that suppressed recombination around the Pm1a region was due to a rearrangement involving chromosomes 7A, 7B and 7D. The cloning of Pm1a and its identification in a highly rearranged region of chromosome 7A provides insight into the role of chromosomal rearrangements in the evolution of this complex resistance cluster.
- Published
- 2020
50. TMBIM5 loss of function alters mitochondrial matrix ion homeostasis and causes a skeletal myopathy
- Author
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Li Zhang, Felicia Dietsche, Bruno Seitaj, Liliana Rojas-Charry, Nadina Latchman, Dhanendra Tomar, Rob CI Wüst, Alexander Nickel, Katrin BM Frauenknecht, Benedikt Schoser, Sven Schumann, Michael J Schmeisser, Johannes vom Berg, Thorsten Buch, Stefanie Finger, Philip Wenzel, Christoph Maack, John W Elrod, Jan B Parys, Geert Bultynck, Axel Methner, University of Zurich, Methner, Axel, Physiology, AMS - Ageing & Vitality, and AMS - Musculoskeletal Health
- Subjects
Ecology ,Health, Toxicology and Mutagenesis ,610 Medizin ,610 Medicine & health ,Apoptosis ,Plant Science ,Genetics and Molecular Biology (miscellaneous) ,Biochemistry, Genetics and Molecular Biology (miscellaneous) ,1301 Biochemistry, Genetics and Molecular Biology (miscellaneous) ,Biochemistry ,Mitochondrial Membrane Transport Proteins ,Mice ,Muscular Diseases ,Health ,610 Medical sciences ,1110 Plant Science ,2307 Health, Toxicology and Mutagenesis ,570 Life sciences ,biology ,590 Animals (Zoology) ,Animals ,Homeostasis ,10239 Institute of Laboratory Animal Science ,Toxicology and Mutagenesis ,Calcium ,2303 Ecology - Abstract
Ion fluxes across the inner mitochondrial membrane control mitochondrial volume, energy production, and apoptosis. TMBIM5, a highly conserved protein with homology to putative pH-dependent ion channels, is involved in the maintenance of mitochondrial cristae architecture, ATP production, and apoptosis. Here, we demonstrate that overexpressed TMBIM5 can mediate mitochondrial calcium uptake. Under steady-state conditions, loss of TMBIM5 results in increased potassium and reduced proton levels in the mitochondrial matrix caused by attenuated exchange of these ions. To identify the in vivo consequences of TMBIM5 dysfunction, we generated mice carrying a mutation in the channel pore. These mutant mice display increased embryonic or perinatal lethality and a skeletal myopathy which strongly correlates with tissue-specific disruption of cristae architecture, early opening of the mitochondrial permeability transition pore, reduced calcium uptake capability, and mitochondrial swelling. Our results demonstrate that TMBIM5 is an essential and important part of the mitochondrial ion transport system machinery with particular importance for embryonic development and muscle function. ispartof: LIFE SCIENCE ALLIANCE vol:5 issue:10 ispartof: location:United States status: published
- Published
- 2022
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