Root Matia I, Gonzalez-Camacho F, Marco R, et al.
The root experiment of the Cervantes Spanish
Soyuz Mission: Cell proliferation and nucleolar
activity alterations in Arabidopsis roots
germinated in real or simulated microgravity.
Microgravity Science and Technology.
2007;XIX(5/6):128-132. doi:
10.1007/BF02919467.
ESA
Root Matia I, Gonzalez-Camacho F, Marco R, Kiss JZ,
Gasset G, Medina F. Nucleolar structure and
proliferation activity of arabidopsis root cells
from seedlings germinated on the International
Space Station. Advances in Space Research.
2005;36(7):1244-1253. doi:
10.1016/j.asr.2005.01.068.
ESA
TAGES Ferl RJ, Koh J, Denison FD, Paul A. Spaceflight
induces specific alterations in the Proteomes of
Arabidopsis. Astrobiology. 2015;15. doi:
10.1089/ast.2014.1210.
NASA
TAGES Parsons-Wingerter P, Vickerman MB, Paul A,
Ferl RJ. Mapping by VESGEN of leaf venation
patterning in Arabidopsis with bioinformatic
dimensions of gene expression. Gravitational
and Space Research. August 2014;2:68-81.
NASA
TAGES Schultz ER, Kelley KL, Paul A, Ferl RJ. A method
for preparing spaceflight RNAlater-fixed
Arabidopsis thaliana (Brassicaceae) tissue for
scanning electron microscopy. Applications in
Plant Sciences. August 2013; 1:1300034. doi:
10.3732/apps.1300034.
NASA
TAGES Paul AL, Amalfitano CE, Ferl RJ. Plant Growth
Strategies Are Remodeled by Spaceflight. BMC
Plant Biology. 2012; 12: 232. doi:10.1186/1471-
2229 - 12 - 232.
NASA
Tropi Sindelar TJ, Millar KD, Kiss JZ. Red light effects
on blue light–based phototropism in roots of
Arabidopsis thaliana. International Journal of
Plant Sciences. July 2014;175:731-740. doi:
10.1086/676303.