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Paper Details

Adaptive laboratory evolution in S. cerevisiae highlights role of transcription factors in fungal xenobiotic resistance.
Commun Biol
8
2022
S. cerevisiae, Saccharomyces cerevisiae, YRM1, YRR1, ZnC transcription factors, amino, amino acids, drug resistance genes, mutated genes
Gene Expression Regulation, Fungal, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Transcription Factors, Xenobiotics
Author NameAffiliation
Sabine OttilieUniversity of California
Madeline R LuthUniversity of California
Erich HellemannUniversity of Pittsburgh
Gregory M GoldgofUniversity of California
Edgar VigilUniversity of California
Prianka KumarUniversity of California
Andrea L CheungUniversity of California
Miranda SongUniversity of California
Karla P Godinez-MaciasUniversity of California
Krypton CarolinoUniversity of California
Jennifer YangUniversity of California
Gisel LopezUniversity of California
Matthew AbrahamUniversity of California
Maureen TarsioSUNY Upstate Medical University
Emmanuelle LeBlancUniversity of Toronto
Luke WhitesellUniversity of Toronto
Jake SchenkenUniversity of California
Felicia GunawanUniversity of California
Reysha PatelUniversity of California
Melissa S Lovea division of The Scripps Research Institutes
Roy M WilliamsUniversity of California
Roy M Williams
Case W McNamaraa division of The Scripps Research Institutes
William H GerwickCenter for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography
Trey Ideker (CM4AI)University of California San Diego
Trey Ideker (CM4AI)University of California San Diego
Yoshiyuki SuzukiJ. Craig Venter Institute
Dyann F WirthHarvard T.H. Chan School of Public Health
Dyann F WirthBroad Institute
Amanda K LukensBroad Institute
Patricia M KaneSUNY Upstate Medical University
Leah E CowenUniversity of Toronto
Jacob D DurrantUniversity of Pittsburgh
Elizabeth A WinzelerUniversity of California
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