Sequencing of the oak genome and identification of genes that matter for forest tree adaptation
Informations
- Funding country
France- Acronym
- GENOAK
- URL
- -
- Start date
- 10/1/2011
- End date
- -
- Budget
- 664,000 EUR
Fundings
| Name | Role | Start | End | Amount |
|---|---|---|---|---|
| Blanc SVSE 6 Blanc - SVSE 6 - Génomique, génétique, bioinformatique et biologie systémique - 2011 | Grant | 10/1/2011 | - | 664,000 EUR |
Abstract
Trees are an important component of the global ecosystem. They dominate many regions of the world as natural, extensively or intensively managed plantations. The Fagaceae family comprises about 1,000 woody species distributed throughout the northern hemisphere. About half belong to the Quercus (oak) genus. These oaks have traditionally high cultural and societal values. As other forest tree species, they are also providing important environmental (carbon sequestration, water cycle, reservoir of biodiversity, soil protection...) and economic (carpentry, furniture, cabinet making, veneer, cask industry, fuelwood, hunting and fungus gathering) services. Finally these long-lived organisms are considered as relevant models to study both short and long term adaptation mechanisms to abiotic and biotic constraints associated with global change, as they grow under a wide range of environments (soil and climate). Due to their biological dominance, their commercial and ecological importance worldwide, an international network was launched recently to develop a coordinated strategy to sequence several Fagaceae genomes. These genomic resources will allow to discover which genes are involved in the adaptation of these organisms to their environments and to study their adaptive potential under current and future climate changes. In Europe, genomic resources have been developed for sessile and pedunculate oaks in the frame of the EVOLTREE network of excellence. In US, American and Chinese chestnuts (Castanea) were the main targets of an NSF funded project. Their genome is now being sequenced within Forest Health Initiative. In China, the efforts to sequence the Lithocarpus and Castanopsis genomes are also on the right track. The present project aims at supporting the participation of French Institutions involved in this international effort. It is a collaboration between six INRA research units and the GENOSCOPE: the French National Sequencing Center. To this end our objectives are three fold: i/ to obtain a reference sequence for the pedunculate oak genome. Sequencing of a genome like oak (740Mb/C) is indeed becoming possible at a substantially reduced cost due to breakthroughs in sequencing technologies and advances in bioinformatic, ii/ annotate the genome and make the data and results available to the scientific community through interoperable databases, and iii/ identify genes that matter for forest tree adaptation through the resequencing of several genomes of sympatric species (sessile, pedunculate, pubescent and pyrenean oaks) adapted to different edapho-climatic environments. This knowledge should contribute to develop molecular tools to assess the adaptive potential of these species through the analysis of their nucleotide diversity.