Derived Publications

Displaying 51 - 59 of 59 derived publications

GeneLab: Omics database for spaceflight experiments

Ray, S., Gebre, S., Fogle, H., Berrios, D. C., Tran, P. B., Galazka, J. G., Costes, S. V., (2019). GeneLab: Omics database for spaceflight experiments. Bioinformatics, 35(10), 1753–1759, doi:10.1093/bioinformatics/bty884

GeneLab Database Analyses Suggest Long-Term Impact of Space Radiation on the Cardiovascular System by the Activation of FYN Through Reactive Oxygen Species

Beheshti, A., McDonald, J. T., Miller, J., Grabham, P., Costes, S. C., (2019). GeneLab Database Analyses Suggest Long-Term Impact of Space Radiation on the Cardiovascular System by the Activation of FYN Through Reactive Oxygen Species.Int. J. Mol. Sci,. 20(3), 661; doi.org/10.3390/ijms20030661

Datasets: GLDS-52, GLDS-109, GLDS-117

Exploring the Effects of Spaceflight on Mouse Physiology using the Open Access NASA GeneLab Data Platform

Beheshti, A., Shirazi-Fard, Y., Choi, S., Berrios, D., Gebre, S. G., Galazaka, J. M., Costes, S.V., (2019). Exploring the Effects of Spaceflight on Mouse Physiology using the Open Access NASA GeneLab Data Platform. J. Vis. Exp.(143) e58447, doi: 10.3791/58447

Comparison of Bacillus subtilis transcriptome profiles from two separate missions to the International Space Station

Morrison, D., Fajardo-Cavozos, P., Nicholson, W. L., (2019). Comparison of Bacillus subtilis transcriptome profiles from two separate missions to the International Space Station. npj Microgravity 5, Article number: 1, doi.org/10.1038/s41526-018-0061-0

Datasets: GLDS-208, GLDS-210

Meta-analysis of data from spaceflight transcriptome experiments does not support the idea of a common bacterial “spaceflight response"

Morrison, M., Nicholson, W. L., (2018). Meta-analysis of data from spaceflight transcriptome experiments does not support the idea of a common bacterial “spaceflight response.” Scientific Reports8, Article number: 14403

Datasets: GLDS-185, GLDS-145GLDS-138GLDS-39GLDS-31GLDS-15GLDS-11

Global transcriptomic analysis suggests carbon dioxide as an environmental stressor in spaceflight: A systems biology GeneLab case study

Beheshti A., Cekanaviciute, E., Smith, D. J., Costes, S. V., (2018). Global transcriptomic analysis suggests carbon dioxide as an environmental stressor in spaceflight: A systems biology GeneLab case study. Scientific Reports 8, Article number: 4191.

Dataset: GLDS-21GLDS-111, GLDS-25, GLDS-63

NASA GeneLab Project: Bridging Space Radiation Omics with Ground Studies

Beheshti, A., Miller, J., Kidane, Y., Berrios, D., Gebre, S.G., Costes, S.V., (2018) NASA GeneLab Project: Bridging Space Radiation Omics with Ground Studies. rrj: 189(6), 553-559; doi.org/10.1667/RR15062.1

A microRNA signature and TGF-β1 response were identified as the key master regulators for spaceflight awareness

Beheshti A., Ray S., Fogle H., Berrios D., Costes S.V. (2018). A microRNA signature and TGF-β1response were identified as the key master regulators for spaceflight awareness. PLoS ONE 13(7): e0199621, doi.org/10.1371/journal.pone.0199621

Datasets: GLDS-25, GLDS-21, GLDS-63, GLDS-111, GLDS-4GLDS-61, GLDS-48

Validation of methods to assess the immunoglobulin gene repertoire in tissues obtained from mice on the international space station

Rettig, T. A., Ward, C., Pecaut, M. J., Chapes, S. K. (2017). Validation of methods to assess the immunoglobulin gene repertoire in tissues obtained from mice on the international space station. Gravitational and Space Research: publication of the American Society for Gravitational and Space Research, 5(1), 2-23.

Dataset: GLDS-48GLDS-47, GLDS-141