Skip to main content
Herranz, Raúl, Vandenbrink, Joshua P., Villacampa, Alicia, Manzano, Aránzazu, Poehlman, William L., Feltus, Frank Alex, Kiss, John Z., Medina, F. Javier
[2019]. RNAseq Analysis of the Response of Arabidopsis thaliana to Fractional Gravity Under Blue-Light Stimulation During Spaceflight. Frontiers in Plant Science. 10:-.
Vandenbrink, Joshua P., Herranz, Raul, Poehlman, William L., Alex Feltus, F., Villacampa, Alicia, Ciska, Malgorzata, Medina, F. Javier, Kiss, John Z.
[2019]. RNA-seq analyses of Arabidopsis thaliana seedlings after exposure to blue-light phototropic stimuli in microgravity. American Journal of Botany. 106:1466-1476-.
Kamal, Khaled Y., Herranz, Raúl, van Loon, Jack J. W. A., Medina, F. Javier
[2018]. Simulated microgravity, Mars gravity, and 2g hypergravity affect cell cycle regulation, ribosome biogenesis, and epigenetics in Arabidopsis cell cultures. Scientific Reports. 8:6424-.
Valbuena, Miguel A., Manzano, Aránzazu, Vandenbrink, Joshua P., Pereda-Loth, Veronica, Carnero-Diaz, Eugénie, Edelmann, Richard E., Kiss, John Z., Herranz, Raúl, Medina, F. Javier
[2018]. The combined effects of real or simulated microgravity and red-light photoactivation on plant root meristematic cells. Planta. 248:691-704-.
Manzano, Aránzazu, Herranz, Raúl, den Toom, Leonardus A., te Slaa, Sjoerd, Borst, Guus, Visser, Martijn, Medina, F. Javier, van Loon, Jack J. W. A.
[2018]. Novel, Moon and Mars, partial gravity simulation paradigms and their effects on the balance between cell growth and cell proliferation during early plant development. npj Microgravity. 4:9-.
Boucheron-Dubuisson, Elodie, Manzano, Ana I., Le Disquet, Isabel, Matía, Isabel, Sáez-Vasquez, Julio, van Loon, Jack J.W.A., Herranz, Raúl, Carnero-Diaz, Eugénie, Medina, F. Javier
[2016]. . . 207:30-41.
Mazars, C., Brière, C., Grat, S., Pichereaux, C., Rossignol, M., Pereda-Loth, V., Eche, B., Boucheron-Dubuisson, E., Le Disquet, I., Medina, F.J., Graziana, A., Carnero-Diaz, E.
[2014]. Microsome-associated proteome modifications of Arabidopsis seedlings grown on board the International Space Station reveal the possible effect on plants of space stresses other than microgravity. Plant Signaling and Behavior. 9:e29637
Mazars, C., Brière, C., Grat, S., Pichereaux, C., Rossignol, M., Pereda-Loth, V., Eche, B., Boucheron-Dubuisson, E., Le Disquet, I., Medina, F.J., Graziana, A., Carnero-Diaz, E.
[2014]. Microgravity induces changes in microsome-associated proteins of Arabidopsis seedlings grown on board the International Space Station. PLoS ONE 9(3): e91814.