URL originale : https://books.openedition.org/irdeditions/43661
Rice as a common good
p. 60-61
Résumé
In the 2000s for the first time, an international team sequenced the DNAof a model plant, Arabidopsis, largely studied by biologists. This triggered a race against the clock between public and private research. The challenge was to sequence the rice genome.
Texte intégral
1The announced sequencing of the first plant genome in 2000 struck fear into the heart of the scientific community. What would happen if a private consortium were to sequence the DNA of a plant of agronomic interest, a plant as vital as rice? In 1997, an international consortium, financed by public funds and involving 10 countries, was created in an attempt to accomplish a scientific feat. At the time, technology was costly, slow and complex. One country alone would have been unable to complete rice sequencing, the genome of which is equivalent to four times that of Arabidopsis.
2This is why IRD, who had been working on the diversity of wild and cultivated rice varieties since the 1970s, turned to the Génoscope, responsible for the sequencing of the human genome, to ensure France’s involvement in the consortium. The different participating States shared the rice genome between them. It was incumbent upon France to sequence chromosome 12. This investment paid off: in 2005, the entire rice genome was published by this consortium in Nature magazine, while the sequences obtained by the private sector were incomplete or of poorer quality.
3Thanks to technical progress and a drop in sequencing costs, other species such as millet or the coffee tree were later sequenced by IRD and its partners. Better still, thousands of individuals from the same species were screened, notably for rice or millet, after which it became possible to reflect genetic diversity within species and identify genes likely to be selected to increase productivity, adaptability or disease resistance. This research enabled scientists to identify genes of interest in the African species of cultivated rice which were transferred to Asian rice, such as resistance genes to combat rice yellow mottle virus, a viral disease which affects rice paddies in Africa.
••• IRD, CNRS and Génoscope sequenced rice chromosome 12 •••
Partners
Génoscope (National Sequencing Centre), France
“Plant development and genome” laboratory (LGDP), CNRS-UPVD UMR University of Perpignan, France
“Genetic improvement and adaptation of plants” UMR, Cirad-Inra, Montpellier SupAgro, France
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Biodiversity in the Global South
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