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Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi
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Zeitschriftentitel: | Proceedings of the National Academy of Sciences |
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Personen und Körperschaften: | , , , , , , , , , , |
In: | Proceedings of the National Academy of Sciences, 112, 2015, 21, S. 6754-6759 |
Format: | E-Article |
Sprache: | Englisch |
veröffentlicht: |
Proceedings of the National Academy of Sciences
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author_facet |
Gutjahr, Caroline Sawers, Ruairidh J. H. Marti, Guillaume Andrés-Hernández, Liliana Yang, Shu-Yi Casieri, Leonardo Angliker, Herbert Oakeley, Edward J. Wolfender, Jean-Luc Abreu-Goodger, Cei Paszkowski, Uta Gutjahr, Caroline Sawers, Ruairidh J. H. Marti, Guillaume Andrés-Hernández, Liliana Yang, Shu-Yi Casieri, Leonardo Angliker, Herbert Oakeley, Edward J. Wolfender, Jean-Luc Abreu-Goodger, Cei Paszkowski, Uta |
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author |
Gutjahr, Caroline Sawers, Ruairidh J. H. Marti, Guillaume Andrés-Hernández, Liliana Yang, Shu-Yi Casieri, Leonardo Angliker, Herbert Oakeley, Edward J. Wolfender, Jean-Luc Abreu-Goodger, Cei Paszkowski, Uta |
spellingShingle |
Gutjahr, Caroline Sawers, Ruairidh J. H. Marti, Guillaume Andrés-Hernández, Liliana Yang, Shu-Yi Casieri, Leonardo Angliker, Herbert Oakeley, Edward J. Wolfender, Jean-Luc Abreu-Goodger, Cei Paszkowski, Uta Proceedings of the National Academy of Sciences Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi Multidisciplinary |
author_sort |
gutjahr, caroline |
spelling |
Gutjahr, Caroline Sawers, Ruairidh J. H. Marti, Guillaume Andrés-Hernández, Liliana Yang, Shu-Yi Casieri, Leonardo Angliker, Herbert Oakeley, Edward J. Wolfender, Jean-Luc Abreu-Goodger, Cei Paszkowski, Uta 0027-8424 1091-6490 Proceedings of the National Academy of Sciences Multidisciplinary http://dx.doi.org/10.1073/pnas.1504142112 <jats:title>Significance</jats:title> <jats:p>Plant roots function as an interface between plants and the complex soil environment. Root systems of higher plants consist of different root types (RTs) that maximize their adaptive potential in heterogenous soil for nutrient uptake and anchorage. This study pioneers the molecular examination of individual RTs of adult rice root systems. The global signature of the transcriptional activity of each RT reveals significant quantitative and qualitative differences that predict functional diversity and specialization. Interaction with naturally prevalent beneficial mycorrhizal fungi profoundly modulated the relationship across the RTs such that the crown root transcriptome resembled that of lateral roots. The alteration of secondary cell wall synthesis in colonized roots is consistent with previously reported changes in root system architecture of mycorrhizal plants.</jats:p> Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi Proceedings of the National Academy of Sciences |
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Proceedings of the National Academy of Sciences, 2015 |
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title |
Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_unstemmed |
Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_full |
Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_fullStr |
Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_full_unstemmed |
Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_short |
Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_sort |
transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
topic |
Multidisciplinary |
url |
http://dx.doi.org/10.1073/pnas.1504142112 |
publishDate |
2015 |
physical |
6754-6759 |
description |
<jats:title>Significance</jats:title>
<jats:p>Plant roots function as an interface between plants and the complex soil environment. Root systems of higher plants consist of different root types (RTs) that maximize their adaptive potential in heterogenous soil for nutrient uptake and anchorage. This study pioneers the molecular examination of individual RTs of adult rice root systems. The global signature of the transcriptional activity of each RT reveals significant quantitative and qualitative differences that predict functional diversity and specialization. Interaction with naturally prevalent beneficial mycorrhizal fungi profoundly modulated the relationship across the RTs such that the crown root transcriptome resembled that of lateral roots. The alteration of secondary cell wall synthesis in colonized roots is consistent with previously reported changes in root system architecture of mycorrhizal plants.</jats:p> |
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author | Gutjahr, Caroline, Sawers, Ruairidh J. H., Marti, Guillaume, Andrés-Hernández, Liliana, Yang, Shu-Yi, Casieri, Leonardo, Angliker, Herbert, Oakeley, Edward J., Wolfender, Jean-Luc, Abreu-Goodger, Cei, Paszkowski, Uta |
author_facet | Gutjahr, Caroline, Sawers, Ruairidh J. H., Marti, Guillaume, Andrés-Hernández, Liliana, Yang, Shu-Yi, Casieri, Leonardo, Angliker, Herbert, Oakeley, Edward J., Wolfender, Jean-Luc, Abreu-Goodger, Cei, Paszkowski, Uta, Gutjahr, Caroline, Sawers, Ruairidh J. H., Marti, Guillaume, Andrés-Hernández, Liliana, Yang, Shu-Yi, Casieri, Leonardo, Angliker, Herbert, Oakeley, Edward J., Wolfender, Jean-Luc, Abreu-Goodger, Cei, Paszkowski, Uta |
author_sort | gutjahr, caroline |
container_issue | 21 |
container_start_page | 6754 |
container_title | Proceedings of the National Academy of Sciences |
container_volume | 112 |
description | <jats:title>Significance</jats:title> <jats:p>Plant roots function as an interface between plants and the complex soil environment. Root systems of higher plants consist of different root types (RTs) that maximize their adaptive potential in heterogenous soil for nutrient uptake and anchorage. This study pioneers the molecular examination of individual RTs of adult rice root systems. The global signature of the transcriptional activity of each RT reveals significant quantitative and qualitative differences that predict functional diversity and specialization. Interaction with naturally prevalent beneficial mycorrhizal fungi profoundly modulated the relationship across the RTs such that the crown root transcriptome resembled that of lateral roots. The alteration of secondary cell wall synthesis in colonized roots is consistent with previously reported changes in root system architecture of mycorrhizal plants.</jats:p> |
doi_str_mv | 10.1073/pnas.1504142112 |
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spelling | Gutjahr, Caroline Sawers, Ruairidh J. H. Marti, Guillaume Andrés-Hernández, Liliana Yang, Shu-Yi Casieri, Leonardo Angliker, Herbert Oakeley, Edward J. Wolfender, Jean-Luc Abreu-Goodger, Cei Paszkowski, Uta 0027-8424 1091-6490 Proceedings of the National Academy of Sciences Multidisciplinary http://dx.doi.org/10.1073/pnas.1504142112 <jats:title>Significance</jats:title> <jats:p>Plant roots function as an interface between plants and the complex soil environment. Root systems of higher plants consist of different root types (RTs) that maximize their adaptive potential in heterogenous soil for nutrient uptake and anchorage. This study pioneers the molecular examination of individual RTs of adult rice root systems. The global signature of the transcriptional activity of each RT reveals significant quantitative and qualitative differences that predict functional diversity and specialization. Interaction with naturally prevalent beneficial mycorrhizal fungi profoundly modulated the relationship across the RTs such that the crown root transcriptome resembled that of lateral roots. The alteration of secondary cell wall synthesis in colonized roots is consistent with previously reported changes in root system architecture of mycorrhizal plants.</jats:p> Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi Proceedings of the National Academy of Sciences |
spellingShingle | Gutjahr, Caroline, Sawers, Ruairidh J. H., Marti, Guillaume, Andrés-Hernández, Liliana, Yang, Shu-Yi, Casieri, Leonardo, Angliker, Herbert, Oakeley, Edward J., Wolfender, Jean-Luc, Abreu-Goodger, Cei, Paszkowski, Uta, Proceedings of the National Academy of Sciences, Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi, Multidisciplinary |
title | Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_full | Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_fullStr | Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_full_unstemmed | Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_short | Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_sort | transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
title_unstemmed | Transcriptome diversity among rice root types during asymbiosis and interaction with arbuscular mycorrhizal fungi |
topic | Multidisciplinary |
url | http://dx.doi.org/10.1073/pnas.1504142112 |