17 results on '"Maboreke, Hazel"'
Search Results
2. Epitope Coverage of Anti-SARS-CoV-2 Nucleocapsid IgA and IgG Antibodies Correlates with Protection against Re-Infection by New Variants in Subsequent Waves of the COVID-19 Pandemic
- Author
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Mullins, Michelle O., primary, Smith, Muneerah, additional, Maboreke, Hazel, additional, Nel, Andrew J. M., additional, Ntusi, Ntobeko A. B., additional, Burgers, Wendy A., additional, and Blackburn, Jonathan M., additional
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- 2023
- Full Text
- View/download PDF
3. Epitope Coverage of Anti-SARS-CoV-2 Nucleocapsid IgA and IgG Antibodies Correlates With Protection Against Re-Infection by New Variants in Subsequent Waves of the COVID-19 Pandemic
- Author
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Mullins, Michelle O., primary, Smith, Muneerah, additional, Maboreke, Hazel, additional, Nel, Andrew J. M., additional, Ntusi, Ntobeko A. B., additional, Burgers, Wendy A., additional, and Blackburn, Jonathan M., additional
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- 2022
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4. Prior infection with SARS-CoV-2 boosts and broadens Ad26.COV2.S immunogenicity in a variant-dependent manner
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Keeton, Roanne, primary, Richardson, Simone I., additional, Moyo-Gwete, Thandeka, additional, Hermanus, Tandile, additional, Tincho, Marius B., additional, Benede, Ntombi, additional, Manamela, Nelia P., additional, Baguma, Richard, additional, Makhado, Zanele, additional, Ngomti, Amkele, additional, Motlou, Thopisang, additional, Mennen, Mathilda, additional, Chinhoyi, Lionel, additional, Skelem, Sango, additional, Maboreke, Hazel, additional, Doolabh, Deelan, additional, Iranzadeh, Arash, additional, Otter, Ashley D., additional, Brooks, Tim, additional, Noursadeghi, Mahdad, additional, Moon, James C., additional, Grifoni, Alba, additional, Weiskopf, Daniela, additional, Sette, Alessandro, additional, Blackburn, Jonathan, additional, Hsiao, Nei-Yuan, additional, Williamson, Carolyn, additional, Riou, Catherine, additional, Goga, Ameena, additional, Garrett, Nigel, additional, Bekker, Linda-Gail, additional, Gray, Glenda, additional, Ntusi, Ntobeko A.B., additional, Moore, Penny L., additional, and Burgers, Wendy A., additional
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- 2021
- Full Text
- View/download PDF
5. Ectomycorrhizal fungus supports endogenous rhythmic growth and corresponding resource allocation in oak during various below- and aboveground biotic interactions
- Author
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Tarkka, Mika, Grams, Thorsten, Angay, Oguzhan, Kurth, Florence, Maboreke, Hazel R., Mailänder, Sarah, Bönn, Markus, Feldhahn, Lasse, Fleischmann, Frank, Ruess, Liliane, Schädler, Martin, Scheu, Stefan, Schrey, Silvia D., Buscot, Francois, Herrmann, Sylvie, Tarkka, Mika, Grams, Thorsten, Angay, Oguzhan, Kurth, Florence, Maboreke, Hazel R., Mailänder, Sarah, Bönn, Markus, Feldhahn, Lasse, Fleischmann, Frank, Ruess, Liliane, Schädler, Martin, Scheu, Stefan, Schrey, Silvia D., Buscot, Francois, and Herrmann, Sylvie
- Abstract
Endogenous rhythmic growth (ERG) is displayed by many tropical and some major temperate tree species and characterized by alternating root and shoot flushes (RF and SF). These flushes occur parallel to changes in biomass partitioning and in allocation of recently assimilated carbon and nitrogen. To address how biotic interactions interplay with ERG, we cross-compared the RF/SF shifts in oak microcuttings in the presence of pathogens, consumers and a mycorrhiza helper bacterium, without and with an ectomycorrhizal fungus (EMF), and present a synthesis of the observations. The typical increase in carbon allocation to sink leaves during SF did not occur in the presence of root or leaf pathogens, and the increase in nitrogen allocation to lateral roots during RF did not occur with the pathogens. The RF/SF shifts in resource allocation were mostly restored upon additional interaction with the EMF. Its presence led to increased resource allocation to principal roots during RF, also when the oaks were inoculated additionally with other interactors. The interactors affected the alternating, rhythmic growth and resource allocation shifts between shoots and roots. The restoring role of the EMF on RF/SF changes in parallel to the corresponding enhanced carbon and nitrogen allocation to sink tissues suggests that the EMF is supporting plants in maintaining the ERG., Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659, Helmholtz-Zentrum für Umweltforschung GmbH - UFZ (4215), Peer Reviewed
- Published
- 2021
6. Rather than by direct acquisition via lateral gene transfer, GHF5 cellulases were passed on from early Pratylenchidae to root-knot and cyst nematodes
- Author
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Rybarczyk-Mydłowska Katarzyna, Maboreke Hazel Ruvimbo, van Megen Hanny, van den Elsen Sven, Mooyman Paul, Smant Geert, Bakker Jaap, and Helder Johannes
- Subjects
Lateral gene transfer ,Cellulase ,Nematodes ,Plant parasitism ,Evolution ,QH359-425 - Abstract
Abstract Background Plant parasitic nematodes are unusual Metazoans as they are equipped with genes that allow for symbiont-independent degradation of plant cell walls. Among the cell wall-degrading enzymes, glycoside hydrolase family 5 (GHF5) cellulases are relatively well characterized, especially for high impact parasites such as root-knot and cyst nematodes. Interestingly, ancestors of extant nematodes most likely acquired these GHF5 cellulases from a prokaryote donor by one or multiple lateral gene transfer events. To obtain insight into the origin of GHF5 cellulases among evolutionary advanced members of the order Tylenchida, cellulase biodiversity data from less distal family members were collected and analyzed. Results Single nematodes were used to obtain (partial) genomic sequences of cellulases from representatives of the genera Meloidogyne, Pratylenchus, Hirschmanniella and Globodera. Combined Bayesian analysis of ≈ 100 cellulase sequences revealed three types of catalytic domains (A, B, and C). Represented by 84 sequences, type B is numerically dominant, and the overall topology of the catalytic domain type shows remarkable resemblance with trees based on neutral (= pathogenicity-unrelated) small subunit ribosomal DNA sequences. Bayesian analysis further suggested a sister relationship between the lesion nematode Pratylenchus thornei and all type B cellulases from root-knot nematodes. Yet, the relationship between the three catalytic domain types remained unclear. Superposition of intron data onto the cellulase tree suggests that types B and C are related, and together distinct from type A that is characterized by two unique introns. Conclusions All Tylenchida members investigated here harbored one or multiple GHF5 cellulases. Three types of catalytic domains are distinguished, and the presence of at least two types is relatively common among plant parasitic Tylenchida. Analysis of coding sequences of cellulases suggests that root-knot and cyst nematodes did not acquire this gene directly by lateral genes transfer. More likely, these genes were passed on by ancestors of a family nowadays known as the Pratylenchidae.
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- 2012
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- View/download PDF
7. Micro-Food Web Structure Shapes Rhizosphere Microbial Communities and Growth in Oak
- Author
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Maboreke, Hazel, Bartel, Veronika, Seiml-Buchinger, René, Ruess, Liliane, Maboreke, Hazel, Bartel, Veronika, Seiml-Buchinger, René, and Ruess, Liliane
- Abstract
The multitrophic interactions in the rhizosphere impose significant impacts on microbial community structure and function, affecting nutrient mineralisation and consequently plant performance. However, particularly for long-lived plants such as forest trees, the mechanisms by which trophic structure of the micro-food web governs rhizosphere microorganisms are still poorly understood. This study addresses the role of nematodes, as a major component of the soil micro-food web, in influencing the microbial abundance and community structure as well as tree growth. In a greenhouse experiment with Pedunculate Oak seedlings were grown in soil, where the nematode trophic structure was manipulated by altering the proportion of functional groups (i.e., bacterial, fungal, and plant feeders) in a full factorial design. The influence on the rhizosphere microbial community, the ectomycorrhizal symbiont Piloderma croceum, and oak growth, was assessed. Soil phospholipid fatty acids were employed to determine changes in the microbial communities. Increased density of singular nematode functional groups showed minor impact by increasing the biomass of single microbial groups (e.g., plant feeders that of Gram-negative bacteria), except fungal feeders, which resulted in a decline of all microorganisms in the soil. In contrast, inoculation of two or three nematode groups promoted microbial biomass and altered the community structure in favour of bacteria, thereby counteracting negative impact of single groups. These findings highlight that the collective action of trophic groups in the soil micro-food web can result in microbial community changes promoting the fitness of the tree, thereby alleviating the negative effects of individual functional groups., Deutsche Forschungsgemeinschaft (DFG), Peer Reviewed
- Published
- 2018
8. Effect of plant-parasitic nematodes on rhizosphere interactions in oaks
- Author
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Maboreke, Hazel Ruvimbo, Rueß, Liliane, Hallmann, Johannes, and Buscot, Francois
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WP 7070 ,Interaktionen ,32 Biologie ,interactions ,ddc:570 ,oak ,Rhizosphäre ,570 Biowissenschaften, Biologie ,Stieleiche ,rhizosphere ,Pflanzenparasitäre Nematoden ,ZC 78840 ,Plant-parasitic nematodes - Abstract
Diese Arbeit untersucht die Reaktion der Stieleiche auf pflanzenparasitären Nematoden mittels RNA-Sequenzierung und Analyse von stabilen Isotopen und Fettsäuren. Einblicke in Rhizosphäreninteraktionen wurden über mutualistische Partner (Ektomykorrhizapilze, Rhizosphärenhelferbakterien), fungivore Collembolen und multitrophische Gemeinschaften gewonnen. Die Struktur und Biomasse der Mikroorganismen sowie die Fitness der Eichen wurden erfasst. Die Effekte wurzelfressender Nematoden auf die Eiche wurden durch das endogene rhythmische Wachstum des Baumes reguliert. Die Nematoden lösten eine stärkere Reaktion während des Sprosswachstumsschubs aus, u.a. Aktivierung von Abwehrmechanismen und Hemmung der Photosynthese, wohingegen beim Wurzelwachstumsschub pathogen bezogene Signale unterdrückt waren. Die Anwesenheit des Pilzsymbionten schwächte die Pflanzenabwehr und verbesserte die Stresstoleranz, was indirekt das Wachstum der Mikroorganismen förderte. Die Helferbakterien begünstigten den Mykorrhizapilz, was wiederum das Pflanzenwachstum stimulierte und dem negativen Effekt der Nematoden entgegenwirkte. Parasitäre Nematoden und fungivore Collembolen beeinflussten die Verteilung des pflanzlichen Kohlenstoffes unabhängig voneinander; Nematoden verringerten und Collembolen verbesserten die Allokation von Photoassimilaten in Gram-postiven Bakterien. Zudem war steigende trophische Diversität der Bodenfauna in der Rhizosphäre entscheidend für die Balance innerhalb der mikrobiellen Gemeinschaft, welche das Pflanzenwachstum fördert. Diese Arbeit stellt die Bedeutung der endogenen Ressourcenzuteilung von Pflanzen für unterirdische biotische Wechselbeziehungen heraus. Diese Pflanzenstrategie als bedeutender Faktor für Rhizosphärenprozesse sollte in zukünftige Studien Berücksichtigung finden. Die Einbeziehung der Hauptakteure in der Rhizosphäre ermöglicht zudem ein realistischeres Bild von Nematoden-Pflanzen Interaktionen und damit ein effektiveres Management., This thesis investigated the response of Pedunculate oak to the plant-parasitic nematode Pratylenchus penetrans, using RNA-sequencing, stable isotope labelling and fatty acid analyses. Insight into rhizosphere interactions was gained by employing beneficial biotic partners (ectomycorrhizal fungi, rhizosphere helper bacteria), fungal grazers (Collembola) and multitrophic environments. Microbial biomass and community structure as well as oak fitness were assessed. The effects of root-feeding nematodes on oak were largely governed by the endogenous rhythmic growth of the tree. The nematodes triggered a stronger response during shoot flush, e.g. activation of multi-layered defence mechanisms and repression of photosynthesis, as compared to root flush where pathogen-related signalling was repressed. With the presence of the mycorrhizal symbiont plant defence was attenuated and stress tolerance enhanced, indirectly promoting the growth of rhizosphere microorganisms. The helper bacteria fostered the ectomycorrhizal fungus, which in turn stimulated plant growth, counteracting the negative effects of nematodes. Plant-parasitic nematodes and Collembola grazers had independent roles in plant carbon allocation patterns, with nematodes hampering whilst Collembola enhancing the flux of recent photoassimilates to Gram-positive bacteria. Lastly, increasing trophic diversity of the soil fauna in the rhizosphere of oaks was crucial for the maintenances of a microbial community equilibrium that promotes plant growth. In sum, this study highlights the importance of endogenous resource allocation pattern of plants in determining the outcome of belowground biotic interactions. Therefore such plant traits should be considered as important drivers for rhizosphere processes in future studies. Moreover, taking into account the rhizosphere main players in studies on parasitic nematode-plant interactions will result in a more realistic picture and thus more effective nematode management.
- Published
- 2017
9. Micro-Food Web Structure Shapes Rhizosphere Microbial Communities and Growth in Oak
- Author
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Maboreke, Hazel, primary, Bartel, Veronika, additional, Seiml-Buchinger, René, additional, and Ruess, Liliane, additional
- Published
- 2018
- Full Text
- View/download PDF
10. Effect of plant-parasitic nematodes on rhizosphere interactions in oaks
- Author
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Rueß, Liliane, Hallmann, Johannes, Buscot, Francois, Maboreke, Hazel, Rueß, Liliane, Hallmann, Johannes, Buscot, Francois, and Maboreke, Hazel
- Abstract
Diese Arbeit untersucht die Reaktion der Stieleiche auf pflanzenparasitären Nematoden mittels RNA-Sequenzierung und Analyse von stabilen Isotopen und Fettsäuren. Einblicke in Rhizosphäreninteraktionen wurden über mutualistische Partner (Ektomykorrhizapilze, Rhizosphärenhelferbakterien), fungivore Collembolen und multitrophische Gemeinschaften gewonnen. Die Struktur und Biomasse der Mikroorganismen sowie die Fitness der Eichen wurden erfasst. Die Effekte wurzelfressender Nematoden auf die Eiche wurden durch das endogene rhythmische Wachstum des Baumes reguliert. Die Nematoden lösten eine stärkere Reaktion während des Sprosswachstumsschubs aus, u.a. Aktivierung von Abwehrmechanismen und Hemmung der Photosynthese, wohingegen beim Wurzelwachstumsschub pathogen bezogene Signale unterdrückt waren. Die Anwesenheit des Pilzsymbionten schwächte die Pflanzenabwehr und verbesserte die Stresstoleranz, was indirekt das Wachstum der Mikroorganismen förderte. Die Helferbakterien begünstigten den Mykorrhizapilz, was wiederum das Pflanzenwachstum stimulierte und dem negativen Effekt der Nematoden entgegenwirkte. Parasitäre Nematoden und fungivore Collembolen beeinflussten die Verteilung des pflanzlichen Kohlenstoffes unabhängig voneinander; Nematoden verringerten und Collembolen verbesserten die Allokation von Photoassimilaten in Gram-postiven Bakterien. Zudem war steigende trophische Diversität der Bodenfauna in der Rhizosphäre entscheidend für die Balance innerhalb der mikrobiellen Gemeinschaft, welche das Pflanzenwachstum fördert. Diese Arbeit stellt die Bedeutung der endogenen Ressourcenzuteilung von Pflanzen für unterirdische biotische Wechselbeziehungen heraus. Diese Pflanzenstrategie als bedeutender Faktor für Rhizosphärenprozesse sollte in zukünftige Studien Berücksichtigung finden. Die Einbeziehung der Hauptakteure in der Rhizosphäre ermöglicht zudem ein realistischeres Bild von Nematoden-Pflanzen Interaktionen und damit ein effektiveres Management., This thesis investigated the response of Pedunculate oak to the plant-parasitic nematode Pratylenchus penetrans, using RNA-sequencing, stable isotope labelling and fatty acid analyses. Insight into rhizosphere interactions was gained by employing beneficial biotic partners (ectomycorrhizal fungi, rhizosphere helper bacteria), fungal grazers (Collembola) and multitrophic environments. Microbial biomass and community structure as well as oak fitness were assessed. The effects of root-feeding nematodes on oak were largely governed by the endogenous rhythmic growth of the tree. The nematodes triggered a stronger response during shoot flush, e.g. activation of multi-layered defence mechanisms and repression of photosynthesis, as compared to root flush where pathogen-related signalling was repressed. With the presence of the mycorrhizal symbiont plant defence was attenuated and stress tolerance enhanced, indirectly promoting the growth of rhizosphere microorganisms. The helper bacteria fostered the ectomycorrhizal fungus, which in turn stimulated plant growth, counteracting the negative effects of nematodes. Plant-parasitic nematodes and Collembola grazers had independent roles in plant carbon allocation patterns, with nematodes hampering whilst Collembola enhancing the flux of recent photoassimilates to Gram-positive bacteria. Lastly, increasing trophic diversity of the soil fauna in the rhizosphere of oaks was crucial for the maintenances of a microbial community equilibrium that promotes plant growth. In sum, this study highlights the importance of endogenous resource allocation pattern of plants in determining the outcome of belowground biotic interactions. Therefore such plant traits should be considered as important drivers for rhizosphere processes in future studies. Moreover, taking into account the rhizosphere main players in studies on parasitic nematode-plant interactions will result in a more realistic picture and thus more effective nematode management.
- Published
- 2017
11. Additional file 3: of Transcriptome analysis in oak uncovers a strong impact of endogenous rhythmic growth on the interaction with plant-parasitic nematodes
- Author
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Maboreke, Hazel, Feldhahn, Lasse, Bönn, Markus, Tarkka, Mika, Francois Buscot, Herrmann, Sylvie, Menzel, Ralph, and Ruess, Liliane
- Subjects
fungi ,food and beverages - Abstract
Title: Dry weight of plant tissues. Description: Table of the dry weight of plant tissues at different growth stages (Root and Shoot flushes) for the respective treatments: control, P. penetrans, P. croceum and co-inoculation of P. penetrans and P. croceum. ANOVA with *, ** and *** with P
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- 2016
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12. Transcriptome analysis in oak uncovers a strong impact of endogenous rhythmic growth on the interaction with plant-parasitic nematodes
- Author
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Maboreke, Hazel R., primary, Feldhahn, Lasse, additional, Bönn, Markus, additional, Tarkka, Mika T., additional, Buscot, Francois, additional, Herrmann, Sylvie, additional, Menzel, Ralph, additional, and Ruess, Liliane, additional
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- 2016
- Full Text
- View/download PDF
13. Synergists and antagonists in the rhizosphere modulate microbial communities and growth of Quercus robur L.
- Author
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Caravaca, Fuensanta, primary, Maboreke, Hazel, additional, Kurth, Florence, additional, Herrmann, Sylvie, additional, Tarkka, Mika T., additional, and Ruess, Liliane, additional
- Published
- 2015
- Full Text
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14. OakContigDF159.1, a reference library for studying differential gene expression in Quercus robur during controlled biotic interactions: use for quantitative transcriptomic profiling of oak roots in ectomycorrhizal symbiosis
- Author
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Tarkka, Mika, Herrmann, Sylvie, Wubet, Tesfaye, Feldhahn, Lasse, Recht, Sabine, Kurth, Florence, Mailänder, S., Bönn, Markus, Neef, M., Angay, O., Bacht, M., Graf, Marcel, Maboreke, Hazel, Fleischmann, F., Grams, T.E.E., Ruess, L., Schädler, Martin, Brandl, R., Scheu, S., Schrey, S.D., Grosse, I., Buscot, Francois, Tarkka, Mika, Herrmann, Sylvie, Wubet, Tesfaye, Feldhahn, Lasse, Recht, Sabine, Kurth, Florence, Mailänder, S., Bönn, Markus, Neef, M., Angay, O., Bacht, M., Graf, Marcel, Maboreke, Hazel, Fleischmann, F., Grams, T.E.E., Ruess, L., Schädler, Martin, Brandl, R., Scheu, S., Schrey, S.D., Grosse, I., and Buscot, Francois
- Abstract
Oaks (Quercus spp.), which are major forest trees in the northern hemisphere, host many biotic interactions, but molecular investigation of these interactions is limited by fragmentary genome data. To date, only 75 oak expressed sequence tags (ESTs) have been characterized in ectomycorrhizal (EM) symbioses. We synthesized seven beneficial and detrimental biotic interactions between microorganisms and animals and a clone (DF159) of Quercus robur. Sixteen 454 and eight Illumina cDNA libraries from leaves and roots were prepared and merged to establish a reference for RNA-Seq transcriptomic analysis of oak EMs with Piloderma croceum. Using the Mimicking Intelligent Read Assembly (MIRA) and Trinity assembler, the OakContigDF159.1 hybrid assembly, containing 65 712 contigs with a mean length of 1003 bp, was constructed, giving broad coverage of metabolic pathways. This allowed us to identify 3018 oak contigs that were differentially expressed in EMs, with genes encoding proline-rich cell wall proteins and ethylene signalling-related transcription factors showing up-regulation while auxin and defence-related genes were down-regulated. In addition to the first report of remorin expression in EMs, the extensive coverage provided by the study permitted detection of differential regulation within large gene families (nitrogen, phosphorus and sugar transporters, aquaporins). This might indicate specific mechanisms of genome regulation in oak EMs compared with other trees.
- Published
- 2013
15. OakContig DF 159.1, a reference library for studying differential gene expression in Quercus robur during controlled biotic interactions: use for quantitative transcriptomic profiling of oak roots in ectomycorrhizal symbiosis
- Author
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Tarkka, Mika T., primary, Herrmann, Sylvie, additional, Wubet, Tesfaye, additional, Feldhahn, Lasse, additional, Recht, Sabine, additional, Kurth, Florence, additional, Mailänder, Sarah, additional, Bönn, Markus, additional, Neef, Maren, additional, Angay, Oguzhan, additional, Bacht, Michael, additional, Graf, Marcel, additional, Maboreke, Hazel, additional, Fleischmann, Frank, additional, Grams, Thorsten E. E., additional, Ruess, Liliane, additional, Schädler, Martin, additional, Brandl, Roland, additional, Scheu, Stefan, additional, Schrey, Silvia D., additional, Grosse, Ivo, additional, and Buscot, François, additional
- Published
- 2013
- Full Text
- View/download PDF
16. OakContig DF159.1, a reference library for studying differential gene expression in Quercus robur during controlled biotic interactions: use for quantitative transcriptomic profiling of oak roots in ectomycorrhizal symbiosis.
- Author
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Tarkka, Mika T., Herrmann, Sylvie, Wubet, Tesfaye, Feldhahn, Lasse, Recht, Sabine, Kurth, Florence, Mailänder, Sarah, Bönn, Markus, Neef, Maren, Angay, Oguzhan, Bacht, Michael, Graf, Marcel, Maboreke, Hazel, Fleischmann, Frank, Grams, Thorsten E. E., Ruess, Liliane, Schädler, Martin, Brandl, Roland, Scheu, Stefan, and Schrey, Silvia D.
- Subjects
OAK ,PLANT ecological genetics ,GENE expression in plants ,ECTOMYCORRHIZAL fungi ,SYMBIOSIS ,GENETIC regulation in plants - Abstract
Oaks ( Quercus spp.), which are major forest trees in the northern hemisphere, host many biotic interactions, but molecular investigation of these interactions is limited by fragmentary genome data. To date, only 75 oak expressed sequence tags ( ESTs) have been characterized in ectomycorrhizal ( EM) symbioses., We synthesized seven beneficial and detrimental biotic interactions between microorganisms and animals and a clone ( DF159) of Quercus robur. Sixteen 454 and eight Illumina cDNA libraries from leaves and roots were prepared and merged to establish a reference for RNA-Seq transcriptomic analysis of oak EMs with Piloderma croceum., Using the Mimicking Intelligent Read Assembly ( MIRA) and Trinity assembler, the OakContig DF159.1 hybrid assembly, containing 65 712 contigs with a mean length of 1003 bp, was constructed, giving broad coverage of metabolic pathways. This allowed us to identify 3018 oak contigs that were differentially expressed in EMs, with genes encoding proline-rich cell wall proteins and ethylene signalling-related transcription factors showing up-regulation while auxin and defence-related genes were down-regulated., In addition to the first report of remorin expression in EMs, the extensive coverage provided by the study permitted detection of differential regulation within large gene families (nitrogen, phosphorus and sugar transporters, aquaporins). This might indicate specific mechanisms of genome regulation in oak EMs compared with other trees. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
17. OakContigDF159.1, a reference library for studying differential gene expression in Quercus robur during controlled biotic interactions: use for quantitative transcriptomic profiling of oak roots in ectomycorrhizal symbiosis.
- Author
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Tarkka MT, Herrmann S, Wubet T, Feldhahn L, Recht S, Kurth F, Mailänder S, Bönn M, Neef M, Angay O, Bacht M, Graf M, Maboreke H, Fleischmann F, Grams TEE, Ruess L, Schädler M, Brandl R, Scheu S, Schrey SD, Grosse I, and Buscot F
- Subjects
- Biota, Down-Regulation genetics, Real-Time Polymerase Chain Reaction, Reference Standards, Sequence Analysis, RNA, Transcriptome genetics, Up-Regulation genetics, Gene Expression Profiling, Gene Expression Regulation, Plant, Gene Library, Mycorrhizae physiology, Quercus genetics, Quercus microbiology, Symbiosis genetics
- Abstract
Oaks (Quercus spp.), which are major forest trees in the northern hemisphere, host many biotic interactions, but molecular investigation of these interactions is limited by fragmentary genome data. To date, only 75 oak expressed sequence tags (ESTs) have been characterized in ectomycorrhizal (EM) symbioses. We synthesized seven beneficial and detrimental biotic interactions between microorganisms and animals and a clone (DF159) of Quercus robur. Sixteen 454 and eight Illumina cDNA libraries from leaves and roots were prepared and merged to establish a reference for RNA-Seq transcriptomic analysis of oak EMs with Piloderma croceum. Using the Mimicking Intelligent Read Assembly (MIRA) and Trinity assembler, the OakContigDF159.1 hybrid assembly, containing 65 712 contigs with a mean length of 1003 bp, was constructed, giving broad coverage of metabolic pathways. This allowed us to identify 3018 oak contigs that were differentially expressed in EMs, with genes encoding proline-rich cell wall proteins and ethylene signalling-related transcription factors showing up-regulation while auxin and defence-related genes were down-regulated. In addition to the first report of remorin expression in EMs, the extensive coverage provided by the study permitted detection of differential regulation within large gene families (nitrogen, phosphorus and sugar transporters, aquaporins). This might indicate specific mechanisms of genome regulation in oak EMs compared with other trees., (© 2013 The Authors. New Phytologist © 2013 New Phytologist Trust.)
- Published
- 2013
- Full Text
- View/download PDF
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