Tara Stuecker Data-verified

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Researcher

University of Arkansas
Last publication 2026 Last refreshed 2026-05-23

faculty

11 h-index 37 pubs 344 cited

Research Areas

Links

Lab Website Research Group

OverviewAI-generated summary

Tara Stuecker's research focuses on understanding the genetic and physiological mechanisms underlying stress resistance in yeast, particularly *Saccharomyces cerevisiae*. Her work investigates how natural genetic variation within yeast populations contributes to diverse adaptive strategies when facing environmental challenges. Stuecker has published on dynamic changes in gene expression and epigenetic modifications, such as acetylation, during stress responses like heat shock. She also explores advancements in genome editing technologies, including the development of improved vectors for CRISPR-Cas9 applications in yeast. Her research network includes collaborators from the University of Arkansas at Fayetteville and the University of Arkansas for Medical Sciences, with whom she has co-authored multiple publications. Stuecker's scholarship metrics include an h-index of 10, with 37 total publications and 339 total citations.

Metrics

  • h-index: 11
  • Publications: 37
  • Citations: 344

Selected Publications

  • Dynamic global acetylation remodeling during the yeast heat shock response (2026)
    DOI OpenAlex
  • Dynamic global acetylation remodeling during the yeast heat shock response (2026)
    DOI OpenAlex
  • Surprising regulatory plasticity for the conserved HOG pathway in diverse <i>Saccharomyces cerevisiae</i> strains (2025)
    DOI OpenAlex
  • MIC*: A Framework for Interpretable Analysis of Ordinal Viability Data (2025)
    1 citation DOI OpenAlex
  • Improved vectors for retron-mediated CRISPR-Cas9 genome editing in <i>Saccharomyces cerevisiae</i> (2025)
    DOI OpenAlex
  • Dynamic global acetylation remodeling during the yeast heat shock response (2025)
    1 citation DOI OpenAlex
  • Improved vectors for retron-mediated CRISPR-Cas9 genome editing in <i>Saccharomyces cerevisiae</i> (2024)
    DOI OpenAlex
  • Natural variation in yeast reveals multiple paths for acquiring higher stress resistance (2024)
    8 citations DOI OpenAlex
  • Natural variation in yeast reveals multiple paths for acquiring higher stress resistance (2023)
    DOI OpenAlex

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Collaboration Network

28 Collaborators 4 Institutions 1 Country

Top Collaborators

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