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Genes involved in the short and long term responses to water deficit in roots of different grapevine rootstocks
(ClimWine 2016 (Sustainable grape and wine production in the context of climate change), Conférence, UMR EGFV, fr, Bordeaux, 2016)Autre communication scientifique (congrès sans actes - poster - séminaire...) -
Understanding the genetic bases of adaptation to soil water deficit in trees through the examination of water use efficiency and cavitation resistance: maritime pine as a case study.
(Journal of Plant Hydraulics. vol. 3, n° e-008, pp. 23 p., 2016)Article de revue -
Genetic architecture of water use efficiency and related traits in maritime pine
(Book of abstracts, Genomics and Forest Tree Genetics Conference, Conférence, Arcachon, 2016)Autre communication scientifique (congrès sans actes - poster - séminaire...) -
Combining genotyping by sequencing and genomic prediction within bi-parental crosses to speed up selection of grapevine cultivars
Document de travail - Pré-publication -
Towards a better understanding of the complex mechanisms involved in adaptation of rootstocks to drought
(XXth GiESCO International Meeting, XXth GiESCO International Meeting, 2017 Nov. 5-9, Mendoza, Argentina, ar, Mendoza, 2017)Autre communication scientifique (congrès sans actes - poster - séminaire...) -
Oxidative transformation of Leucocyanidin by anthocyanidin synthase from Vitis vinifera leads only to quercetin
(Journal of Agricultural and Food Chemistry. vol. 67, n° 13, pp. 3595-3604, 2019)Article de revue -
The influence of grapevine rootstocks on scion growth and drought resistance
(Theoretical and Experimental Plant Physiology. vol. 28, n° 2, pp. 143-157, 2016)Article de revue -
Adapting plant material to face water stress in vineyards: which physiological targets for an optimal control of plant water status?
(Oeno One. vol. 51, n° 2, pp. 167, 2017)Article de revue -
Grapevine genetics and climate change
(Vigne et Vin Publications internationales, 2017)Chapitre d'ouvrage -
14-3-3 proteins from Vitis vinifera bind to and modulate the anthocyanidin synthase activity in vitro
(Vitis. vol. 57, n° 2, pp. 47-52, 2018)Article de revue