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College of Arts & Sciences

Sarah Wyatt

Sarah Wyatt


Environmental & Plant Biology
Porter Hall 508

Recent News & NASA Space Flight Information


Ph.D., Purdue University, 1995


  • Molecular Biology
  • Genomics

In the Wyatt Lab, we use molecular, genetic and genomic tools to study plant growth and development.

Gravity is a fundamental stimulus governing plant growth and development. Normally, when plants are reoriented with respect to gravity (placed on their side), the shoots bend up and the roots bend down. We use a cold "trick" to isolate the molecular components that respond to the gravity stimulus. The gravity persistent signal (gps) mutants are the star of this show. We have further exploited the GPS response to use genomic and proteomic analysis for global gene discovery. And, of course, the true control for gravity responses is a lack of gravity. In 2014-15, we were privileged to "fly" an experiment aboard the International Space Station.

Other projects in the Wyatt lab involve the shift between chasmogamous (open) and cleistogamous (closed) flowers in Viola pubescens (with Harvey Ballard) and genetic fingerprints indicating gene expression and relationships during evolution of plant species (with Gar Rothwell).

Current Projects

  • Proteomics analysis of membrane and soluble proteins from Spaceflight seedlings
  • RNAseq analysis of gene expression of Spaceflight material
  • Further characterization and cloning of GPS2, GPS3, and GPS6
  • Assembly and annotation of a genome for Viola pubescens
  • RNAseq analysis and identification of genes regulating the floral transition in violets

Other Websites

The Wyatt Lab & Team Gravitron

Ohio University Genomics Faculty — The Ohio University Genomics Facility was established in 2007 by funds secured through a NSF award to Drs. Sarah Wyatt & Morgan Vis for major instrumentation.

Ohio University Bioinformatics Initiative

Data Submissions

Wyatt, S.E., Luesse, D.R. (2015) GLDS-38 Transcriptomic and Proteomic Data from BRIC20 published to GeneLab Data System

Selected Papers

Basu P, Kruse CPS, Luesse DR, Wyatt SE (in review) Growth in the Biological Research in Canisters (BRIC) flight hardware results in alterations to the transcriptome and proteome. Advances in Space Research

Kruse CPS, Basu P, Luesse DR, Wyatt SE (in review) Transcriptome and Proteome Stability in RNAlater® Preserved Tissue of Arabidopsis thaliana PLOS Biology

Basu, P., Luesse, D.R., and Wyatt, S.E. (2015) “Proteomic approaches and their application to plant gravitropism” IN: Methods in Molecular Biology Elison Blancaflor (Ed.) Springer – Humana Press

Cook CA, Tucker A, Shen K and Wyatt SE. (2015) Microarray identifies transcription factors potentially involved in gravitropic signal transduction. Gravitational and Space Research 3:18-27

Rothwell, GR, Wyatt, SE, Tomescu AMF (2014) Plant evolution at the interface of paleontology and developmental biology: an organism centered paradigm. American Journal of Botany 101: 899-913

Tomescu AMF, Wyatt SE, Hasebe M, Rothwell GR (2014) Early evolution of the vascular plant body plan - the missing mechanisms. Current Opinion in Plant Biology 17:126–136

Wyatt SE, Kiss JZ (2013) Plant Tropisms: From Darwin to the International Space Station. American Journal of Botany 100:1-3

Schenck CA, Nadella V, Clay SL, Lindner J, Abrams Z, Wyatt SE (2013) A proteomics approach identifies novel proteins involved in gravitropic signal transduction. American Journal of Botany 100:194-202

Withers JC, Shipp MJ, Rupasinghe SG, Sukumar P, Schuler M, Muday G, Wyatt SE (2013) GRAVITY PERSISTENT SIGNAL 1 (GPS1) reveals a novel cytochrome P450 involved in gravitropism. American Journal of Botany 100:183 -193

Wang, Y., Ballard, H. E., McNally, R. R., and Wyatt, S. E. (2013) Gibberellic acid is involved in, but not sufficient to invert the closed status of the cleistogamous flowers in Viola pubescens. Journal of the Torrey Botanical Society 140: 1-8

Shen, K., Wyatt, S.E., Nadella, V. (2012) ArrayOU: a web application for microarray data analysis and visualization. Journal of Biomolecular Techniques 23: 37-39

Sanders, H, Rothwell, GW, and Wyatt, SE. (2011), Parallel Evolution of Auxin Regulation in Rooting Systems. Plant Systematics and Evolution. 291: 221-225.

*Luesse, DR, *Schenck, CA, Berner, BK, Justus, B, and Wyatt, SE (2010), GPS4 is allelic to ARL2: Implications for gravitropic signal transduction. Gravitational and Space Biology 23: 95-97.

Nadella, V., Shipp, M. J., Muday, G.K, Wyatt, S.E. (2006) Evidence for altered polar and lateral auxin transport in the gravity persistent signal (gps) mutants of Arabidopsis. Plant Cell and Environment 29:682-690.

Wyatt, S.E., Rashotte, A., Shipp, M.J., Muday, G.K., and Robertson, D. (2002) Mutations in the GPS loci in Arabidopsis disrupt the perception and/or signal transduction of gravitropic stimuli. Plant Physiology 130, 1426-1435.

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