Publications

  1. Overbey, Eliah G., Amanda M. Saravia-Butler, Zhe Zhang, Komal S. Rathi, Homer Fogle, Willian A. da Silveira, Richard J. Barker, et al. β€œNASA GeneLab RNA-Seq Consensus Pipeline: Standardized Processing of Short-Read RNA-Seq Data.” (2021) iScience 24, no. 4 (April 23, 2021). https://doi.org/10.1016/j.isci.2021.102361.
  2. Kiss, J. Z., Wolverton, S. C., Wyatt, S. E., Hasenstein, K. H., & van Loon, J. J. W. A. (2019). Comparison of Microgravity Analogs to Spaceflight in Studies of Plant Growth and Development. Frontiers in Plant Science, 10. https://doi.org/10.3389/fpls.2019.01577.
  3. Roberts, B. R., & Wolverton, C. (2018) Transpiration and Drought Stress Recovery of Three Zinnia Cultivars. Journal of Environmental Horticulture, 36(3), 108-113.
  4. Roberts, B. R., Wolverton, C., & Janowicz, L. (2017). The impact of substrate and irrigation interval on the post-transplant root growth of container-grown zinnia and tomato. Journal of Environmental Horticulture, 35(1), 1–5.
  5. Roberts, BA, Wolverton, C, & West, S (2015) Evaluation of a substrate-applied humectant to mitigate drought stress in young, container-grown plants. J. Environ. Hort., 33(3), 137-141.
  6. Wolverton, C. (2015). Quantification of root gravitropic response using a constant stimulus feedback system. In Methods in Molecular Biology: Plant gravitropism: Methods and protocols (Vol. 1309, pp. 23-30). New York: Springer.
  7. Bai H, Murali B, Barber K, Wolverton C (2013) Low phosphate alters lateral root setpoint angle and gravitropism. Am J Bot 100: 175-182.
  8. Bai H, Wolverton C (2011) Gravitropism in lateral roots of Arabidopsis pgm–1 mutants is indistinguishable from that of wild-type. Plant Signal Behav 6: 1423–1424.
  9. Wolverton C, Paya A, Toska J (2011) Root cap angle and gravitropic response rate are uncoupled in the Arabidopsis pgm–1 mutant. Physiol Plantarum 141:373–382.
  10. Wolverton C, Kiss JZ (2009) An update on plant space biology. Gravitational and Space Biology 22: 3–10.
  11. Mullen JL, Wolverton C, Hangarter RP (2005) Apical control, gravitropic signaling, and the growth of lateral roots in Arabidopsis. Advances Space Res 36: 1211–1217.
  12. Ottenschlager I, Wolff P, Wolverton C, Bhalerao RP, Sandberg G, Ishikawa H, Evans ML, Palme K (2003) Gravity-regulated differential auxin transport from columella to lateral root cap cells. Proc Nat Acad Sci 100: 2987–2991.
  13. Wolverton C, Ishikawa H, Evans ML (2002) The Kinetics of Root Gravitropism: Dual Motors and Sensors. J Plant Growth Regulation 21: 102–112.
  14. Wolverton C, Mullen JL, Ishikawa H, Evans ML (2002) Root gravitropism in response to a signal originating outside of the cap. Planta 215: 153–157.
  15. Mullen JL, Wolverton C, Ishikawa H, Hangarter, RP, Evans ML (2002) Spatial separation of light perception and growth response in maize root phototropism. Plant, Cell and Environment 25: 1191–1196.
  16. Mullen JL, Wolverton C, Ishikawa H, Evans ML (2000) Kinetics of Constant Gravitropic Stimulus Responses in Arabidopsis Roots Using a Feedback System. Plant Physiology 123: 665–670.
  17. Wolverton C, Mullen JL, Ishikawa H, Evans ML (2000) Two distict regions of response drive differential growth in Vigna root electrotropism. Plant, Cell and Environment 23: 1275–1280.
  18. Wolverton et al. Inhibition of root elongation in microgravity by an applied electric field. Journal of Plant Research 112: 493–496
  19. Mullen JL, Turk E, Johnson K, Wolverton C, Ishikawa H, Simmons C, Soll D, Evans ML (1998) Root-growth behavior of the Arabidopsis mutant rgr1. Roles of gravitropism and circumnutation in the waving/coiling phenomenon. Plant Physiol 118: 1139–45