Gradual soil water depletion results in reversible changes of gene expression, protein profiles, ecophysiology, and growth performance in Populus euphratica, a poplar growing in arid regions.

MLA

Bogeat-Triboulot, Marie-Béatrice, et al. “Gradual Soil Water Depletion Results in Reversible Changes of Gene Expression, Protein Profiles, Ecophysiology, and Growth Performance in Populus Euphratica, a Poplar Growing in Arid Regions.” Plant Physiology, vol. 143, no. 2, Feb. 2007, pp. 876–92. EBSCOhost, https://doi.org/10.1104/pp.106.088708.

APA

Bogeat-Triboulot, M.-B., Brosché, M., Renaut, J., Jouve, L., Le Thiec, D., Fayyaz, P., Vinocur, B., Witters, E., Laukens, K., Teichmann, T., Altman, A., Hausman, J.-F., Polle, A., Kangasjärvi, J., & Dreyer, E. (2007). Gradual soil water depletion results in reversible changes of gene expression, protein profiles, ecophysiology, and growth performance in Populus euphratica, a poplar growing in arid regions. Plant Physiology, 143(2), 876–892. https://doi.org/10.1104/pp.106.088708

Chicago

Bogeat-Triboulot, Marie-Béatrice, Mikael Brosché, Jenny Renaut, Laurent Jouve, Didier Le Thiec, Payam Fayyaz, Basia Vinocur, et al. 2007. “Gradual Soil Water Depletion Results in Reversible Changes of Gene Expression, Protein Profiles, Ecophysiology, and Growth Performance in Populus Euphratica, a Poplar Growing in Arid Regions.” Plant Physiology 143 (2): 876–92. doi:10.1104/pp.106.088708.