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[Accepted Article Manuscript Version (Postprint)] Auxin Input Pathway Disruptions Are Mitigated By Changes In Auxin Biosynthetic Gene Expression In Arabidopsis, Gretchen Spiess, Amanda Hausman, Peng Yu, Jerry Cohen, Rebekah Rampey, Bethany Zolman
[Accepted Article Manuscript Version (Postprint)] Auxin Input Pathway Disruptions Are Mitigated By Changes In Auxin Biosynthetic Gene Expression In Arabidopsis, Gretchen Spiess, Amanda Hausman, Peng Yu, Jerry Cohen, Rebekah Rampey, Bethany Zolman
Biology Department Faculty Works
Auxin is a phytohormone involved in cell elongation and division. Levels of indole-3-acetic acid (IAA), the primary auxin, are tightly regulated through biosynthesis, degradation, sequestration, and transport. IAA is sequestered in reversible processes by adding amino acids, polyol or simple alcohols, or sugars, forming IAA conjugates, or through a two-carbon elongation forming indole-3-butyric acid. These sequestered forms of IAA alter hormone activity. To gain a better understanding of how auxin homeostasis is maintained, we have generated Arabidopsis (Arabidopsis thaliana) mutants that combine disruptions in the pathways, converting IAA conjugates and indole-3-butyric acid to free IAA. These mutants show phenotypes indicative …
Carbon Source-Dependent Alteration Of Puf3p Activity Mediates Rapid Changes In The Stabilities Of Mrnas Involved In Mitochondrial Function, Melanie Miller, Joseph Russo, Anthony Fischer, Florencia Leban, Wendy Olivas
Carbon Source-Dependent Alteration Of Puf3p Activity Mediates Rapid Changes In The Stabilities Of Mrnas Involved In Mitochondrial Function, Melanie Miller, Joseph Russo, Anthony Fischer, Florencia Leban, Wendy Olivas
Biology Department Faculty Works
The Puf family of RNA-binding proteins regulates gene expression primarily by interacting with the 3′ untranslated region (3′ UTR) of targeted mRNAs and inhibiting translation and/or stimulating decay. Physical association and computational analyses of yeast Puf3p identified >150 potential mRNA targets involved in mitochondrial function. However, only COX17 has been established as a target of Puf3p-mediated deadenylation and decapping. We have identified 10 new targets that are rapidly degraded in a Puf3p-dependent manner. We also observed changes in Puf3p activity in response to environmental conditions. Puf3p promotes rapid degradation of mRNA targets in the fermentable carbon source dextrose. However, Puf3p-mediated …