Forest tree genomics 10 achievements from the past 10 years and future prospects
Key message This review highlights some of the discoveries and applications made possible by “omics” technologies over the last 10 years and provides perspectives for pioneering research to increase our understanding of tree biology. Context A decade after the first forest tree genome sequence was released into the public domain, the rapidly evolving genomics and bioinformatics toolbox has advanced our understanding of the structure, functioning, and evolution of forest tree genomes. Aims and methods This review highlights some of the discoveries and applications that “omics” technologies have made possible for forest trees over the past 10 years. Results In this review, we start by our current understanding of genome evolution and intricacies of gene regulation for reproduction, development, and responses to biotic and abiotic stresses. We then skim over advances in interactome analysis and epigenomics, the knowledge of the extent of genetic variation within and between species, revealing micro- and macro-evolutionary processes and species history, together with the complex architecture of quantitative traits. We finally end with applications in genetic resource conservation and breeding. Conclusion The knowledge gained through the use of these technologies has a huge potential impact for adapting forests to the main challenges they will have to face changing demand from ecosystem services with potentially conflicting strategies in terms of conservation and use, as well as climate changes and associated threats. Genomics will undoubtedly play a major role over the next decade and beyond, not only to further understand the mechanisms underlying adaptation and evolution but also to develop and implement innovative management and policy actions to preserve the adaptability of natural forests and intensively managed plantations. © 2015, INRA and Springer-Verlag France.
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dig-inia-es-20.500.12792-35452020-12-15T09:54:30Z Forest tree genomics 10 achievements from the past 10 years and future prospects Plomion, C. Bastien, C. Bogeat-Triboulot, M. B. Bouffier, L. Déjardin, A. Duplessis, S. Fady, B. Heuertz, M. Le Gac, A. L. Le Provost, G. Legué, V. Lelu-Walter, M. A. Leplé, J. C. Maury, S. Morel, A. Oddou-Muratorio, S. Pilate, G. Sánchez, L. Scotti, I. Scotti-Saintagne, C. Segura, V. Trontin, J. F. Vacher, C. Key message This review highlights some of the discoveries and applications made possible by “omics” technologies over the last 10 years and provides perspectives for pioneering research to increase our understanding of tree biology. Context A decade after the first forest tree genome sequence was released into the public domain, the rapidly evolving genomics and bioinformatics toolbox has advanced our understanding of the structure, functioning, and evolution of forest tree genomes. Aims and methods This review highlights some of the discoveries and applications that “omics” technologies have made possible for forest trees over the past 10 years. Results In this review, we start by our current understanding of genome evolution and intricacies of gene regulation for reproduction, development, and responses to biotic and abiotic stresses. We then skim over advances in interactome analysis and epigenomics, the knowledge of the extent of genetic variation within and between species, revealing micro- and macro-evolutionary processes and species history, together with the complex architecture of quantitative traits. We finally end with applications in genetic resource conservation and breeding. Conclusion The knowledge gained through the use of these technologies has a huge potential impact for adapting forests to the main challenges they will have to face changing demand from ecosystem services with potentially conflicting strategies in terms of conservation and use, as well as climate changes and associated threats. Genomics will undoubtedly play a major role over the next decade and beyond, not only to further understand the mechanisms underlying adaptation and evolution but also to develop and implement innovative management and policy actions to preserve the adaptability of natural forests and intensively managed plantations. © 2015, INRA and Springer-Verlag France. 2020-10-22T14:54:27Z 2020-10-22T14:54:27Z 2016 review http://hdl.handle.net/20.500.12792/3545 10.1007/s13595-015-0488-3 eng Attribution-NonCommercial-ShareAlike 4.0 International http://creativecommons.org/licenses/by-nc-sa/4.0/ open access |
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Key message This review highlights some of the discoveries and applications made possible by “omics” technologies over the last 10 years and provides perspectives for pioneering research to increase our understanding of tree biology. Context A decade after the first forest tree genome sequence was released into the public domain, the rapidly evolving genomics and bioinformatics toolbox has advanced our understanding of the structure, functioning, and evolution of forest tree genomes. Aims and methods This review highlights some of the discoveries and applications that “omics” technologies have made possible for forest trees over the past 10 years. Results In this review, we start by our current understanding of genome evolution and intricacies of gene regulation for reproduction, development, and responses to biotic and abiotic stresses. We then skim over advances in interactome analysis and epigenomics, the knowledge of the extent of genetic variation within and between species, revealing micro- and macro-evolutionary processes and species history, together with the complex architecture of quantitative traits. We finally end with applications in genetic resource conservation and breeding. Conclusion The knowledge gained through the use of these technologies has a huge potential impact for adapting forests to the main challenges they will have to face changing demand from ecosystem services with potentially conflicting strategies in terms of conservation and use, as well as climate changes and associated threats. Genomics will undoubtedly play a major role over the next decade and beyond, not only to further understand the mechanisms underlying adaptation and evolution but also to develop and implement innovative management and policy actions to preserve the adaptability of natural forests and intensively managed plantations. © 2015, INRA and Springer-Verlag France. |
| format |
review |
| author |
Plomion, C. Bastien, C. Bogeat-Triboulot, M. B. Bouffier, L. Déjardin, A. Duplessis, S. Fady, B. Heuertz, M. Le Gac, A. L. Le Provost, G. Legué, V. Lelu-Walter, M. A. Leplé, J. C. Maury, S. Morel, A. Oddou-Muratorio, S. Pilate, G. Sánchez, L. Scotti, I. Scotti-Saintagne, C. Segura, V. Trontin, J. F. Vacher, C. |
| spellingShingle |
Plomion, C. Bastien, C. Bogeat-Triboulot, M. B. Bouffier, L. Déjardin, A. Duplessis, S. Fady, B. Heuertz, M. Le Gac, A. L. Le Provost, G. Legué, V. Lelu-Walter, M. A. Leplé, J. C. Maury, S. Morel, A. Oddou-Muratorio, S. Pilate, G. Sánchez, L. Scotti, I. Scotti-Saintagne, C. Segura, V. Trontin, J. F. Vacher, C. Forest tree genomics 10 achievements from the past 10 years and future prospects |
| author_facet |
Plomion, C. Bastien, C. Bogeat-Triboulot, M. B. Bouffier, L. Déjardin, A. Duplessis, S. Fady, B. Heuertz, M. Le Gac, A. L. Le Provost, G. Legué, V. Lelu-Walter, M. A. Leplé, J. C. Maury, S. Morel, A. Oddou-Muratorio, S. Pilate, G. Sánchez, L. Scotti, I. Scotti-Saintagne, C. Segura, V. Trontin, J. F. Vacher, C. |
| author_sort |
Plomion, C. |
| title |
Forest tree genomics 10 achievements from the past 10 years and future prospects |
| title_short |
Forest tree genomics 10 achievements from the past 10 years and future prospects |
| title_full |
Forest tree genomics 10 achievements from the past 10 years and future prospects |
| title_fullStr |
Forest tree genomics 10 achievements from the past 10 years and future prospects |
| title_full_unstemmed |
Forest tree genomics 10 achievements from the past 10 years and future prospects |
| title_sort |
forest tree genomics 10 achievements from the past 10 years and future prospects |
| publishDate |
2016 |
| url |
http://hdl.handle.net/20.500.12792/3545 |
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