E
Elton T. Young
Researcher at University of Washington
Publications - 96
Citations - 5928
Elton T. Young is an academic researcher from University of Washington. The author has contributed to research in topics: Saccharomyces cerevisiae & Gene. The author has an hindex of 46, co-authored 96 publications receiving 5733 citations. Previous affiliations of Elton T. Young include University of Colorado Boulder & University of British Columbia.
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Journal ArticleDOI
Transcriptional Regulation in Saccharomyces cerevisiae: Transcription Factor Regulation and Function, Mechanisms of Initiation, and Roles of Activators and Coactivators
Steven Hahn,Elton T. Young +1 more
TL;DR: Recent advances in understanding the regulation of mRNA synthesis in Saccharomyces cerevisiae are reviewed and Topics covered include upstream activation sequence and promoter structure, transcription factor classification, and examples of regulated transcription factor activity.
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Zinc-dependent structure of a single-finger domain of yeast ADR1.
Grace Parraga,Suzanna J. Horvath,Arri Eisen,Wayne E. Taylor,Leroy Hood,Elton T. Young,Rachel E. Klevit +6 more
TL;DR: An experimentally determined model of thesingle finger is proposed that is consistent with circular dichroism, one- and two-dimensional nuclear magnetic resonance, and visual spectroscopy of the single-finger peptide reconstituted in the presence of zinc.
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Multiple Pathways Are Co-regulated by the Protein Kinase Snf1 and the Transcription Factors Adr1 and Cat8
TL;DR: Using DNA microarrays, microarray data show that ADR1 coordinates the biochemical pathways that generate acetyl-CoA and NADH from non-fermentable substrates and suggests that SNF1 plays a broader role in gene expression than eitherADR1 or CAT8.
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Cyclic changes in metabolic state during the life of a yeast cell
Benjamin P. Tu,Rachel E. Mohler,Jessica C. Liu,Kenneth M. Dombek,Elton T. Young,Robert E. Synovec,Steven L. McKnight +6 more
TL;DR: The results reveal the logic of cellular metabolism during different phases of the life of a yeast cell and indicate that oscillation in the abundance of key metabolites might help control the temporal regulation of cellular processes and the establishment of a cycle.
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Nucleotide sequence of the yeast alcohol dehydrogenase II gene
TL;DR: The complete nucleotide sequence of the glucose-repressed alcohol dehydrogenase II gene (ADR2) from yeast has been established together with its 5'- and 3'-flanking regions and evidence is presented that the intergenic region at the 3'-end of the ADR2 gene is less than 550 base pairs.