Ionizing radiation present in extraterrestrial environment is an important factor that affects
plants grown in spaceflight. Pearson correlation-based gene regulatory network inferencing …

Spaceflight microgravity affects normal plant growth in several ways. The transcriptional
dataset of the plant model organism Arabidopsis thaliana grown in the international space …

The transcriptomic datasets of the plant model organism Arabidopsis thaliana grown in the
International Space Station provided by GeneLab have been mined to isolate the impact of …

Premise of the Study Spaceflight provides a unique environment in which to dissect plant
stress response behaviors and to reveal potentially novel pathways triggered in space. We …

The ISS National Laboratory provides a unique environment for genetic studies of biological
responses to the space environment that includes microgravity and low levels of radiation. A …

PREMISE OF THE STUDY: Plants will play an important role in the future of space
exploration as part of bioregenerative life support. Thus, it is important to understand the …

One of the important questions in space biology is the mechanisms underlying plant
responses to an outer space environment, ie, how gene expression is altered in space. In …

Recent advances in the routine access to space along with increasing opportunities to
perform plant growth experiments on board the International Space Station have led to an …

Discovering the adaptation mechanisms of plants to the space environment is essential for
supporting human space exploration. Transcriptomic analyses allow the identification of …

ATM (Ataxia Telangiectasia Mutated) is an essential checkpoint kinase that signals DNA
double-strand breaks in eukaryotes. Its depletion causes meiotic and somatic defects in …