Research Areas:
Biochemistry, Molecular Biology, Metabolism

Publications

Monroe, JD and Storm, AR. 2018. Review: The Arabidopsis b-amylase (BAM) gene family: Diversity of form and function. Plant Science. 276: 163-170.

Monroe, JD; Pope, LE#; Breault, JS#; Berndsen, CE; and Storm, AR. 2018. Quaternary Structure, Salt Sensitivity, and Allosteric Regulation of β-AMYLASE2 From Arabidopsis thaliana. Front. Plant Sci. (9): 1176.

Storm, AR; Kohler, MR#; Berndsen, CE; Monroe, JD. 2018. Glutathionylation Inhibits the Catalytic Activity of Arabidopsis β-Amylase3 but Not That of Paralog β-Amylase1. Biochemistry 57 (5): 711-721.

Monroe, JD; Breault, JS#; Pope, LE#; Torres, CE#; Gebrejesust, TB#; Berndsen, CE; and Storm, AR. 2017. Arabidopsis b-Amylase2 is a K+-Requiring, Catalytic Tetramer with Sigmoidal Kinetics. Plant Physiology 175 (4): 1525-1535.

Monroe, JD; Storm, AR; Bradley, E#; Lehman, MD#; Platt, SM#; Saunders, LK#; Schmitz, JM# and Torres, CE#. 2014. β-Amylase1 and β-Amylase3 Are Plastidic Starch Hydrolases in Arabidopsis That Seem to Be Adapted for Different Thermal, pH, and Stress Conditions. Plant Physiology 166 (4): 1748-1763.

Dabney-Smith, C and Storm, AR. 2014. Protein Routing Processes in the Thylakoid, in Advances in Plant Biology: Plastid Biology (Theg, S and Wollman, F, Ed.) (5): 271-289.

  Aldrige, C^; Storm, AR^; Cline, K and Dabney-Smith, C. 2012. The Chloroplast Twin Arginine Transport (Tat) Component, Tha4, Undergoes Conformational Changes Leading to Tat Protein Transport. J Biol Chem 287 (41): 34752-34763.





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