Ames Centrifuge Select Publications
A Sample of Recent CGBR-Enabled Research
- Iwakoshi, N., Kelley, T., Hopkins, S., Thompson, R., Tan, J., Pecaut, M., Fleshner, M., Wilson, C. (2024). A Prebiotic Diet Increases Cardiovascular Adaptability Under Hypergravity-Induced Stress. American Physiological Society Journal, 36(1).
- Boyle, R. (2021). Otolith adaptive responses to altered gravity. Neuroscience & Biobehavioral Reviews, 122, 218-228.
- Alula, K. M., Resau, J. H., & Patel, O. V. (2018). Chronic exposure to altered gravity during the pregnancy-to-lactation transition affects abundance of cytoskeletal proteins in the rat mammary gland. Gravitational and Space Research, 6(1), 58-72.
- Boyle, R., Popova, Y., & Varelas, J. (2018). Influence of magnitude and duration of altered gravity and readaptation to 1 g on the structure and function of the utricle in toadfish, Opsanus tau. Frontiers in Physiology, 9, 1469.
- Popova, Y., & Boyle, R. (2015). Neural response in vestibular organ of Helix aspersa to centrifugation and re-adaptation to normal gravity. Journal of Comparative Physiology A, 201, 717-729.
- Casey, T., Patel, O. V., & Plaut, K. (2015). Transcriptomes reveal alterations in gravity impact circadian clocks and activate mechanotransduction pathways with adaptation through epigenetic change. Physiological genomics, 47(4), 113-128.
- Casey, T., Zakrzewska, E. I., Maple, R. L., Lintault, L., Wade, C. E., Baer, L. A., … & Plaut, K. (2012). Hypergravity disruption of homeorhetic adaptations to lactation in rat dams include changes in circadian clocks. Biology Open, 1(6), 570-581.
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