Newest Publications:
Staruschenko A, Pochynyuk O, Booth, RE, Stockand JD¥. Insight toward epithelial Na+ channel (ENaC) mechanism revealed by the acid-sensing ion channel (ASIC) structure. IUBMB Life in press.
McVey WJ, Matthews B, Motley DM, Linse KD, Blass DP, Booth RE, and Feakes DA¥. Investigation of the Interactions of Polyhedral Borane Anions with Serum Albumins. J. Inorg. Biochem. 102(4):943-51,2008.
Previous Publications:
| Waiters, KD; Schmidt, S; Booth, RE Purification of individual subunits from the epithelial sodium channel (ENaC) FASEB JOURNAL, 21 (5): A245-A245 APR 2007 |
| Boswell, M; Terrell, D; Booth, RE Isolation of glutaminyl cyclase from Saccharomyces cerevisiae FASEB JOURNAL, 21 (6): A1022-A1023 APR 2007 |
| Staruschenko A, Booth RE, Pochynyuk O, Stockand JD, and Tong Q. Ion channels: Chapter 1. Functional reconstitution of the human epithelial Na+ channel in a mammalian expression system. Humana Press. Totowa, New Jersey, 2006. |
| Staruschenko, A; Adams, E; Booth, RE; et al. Epithelial Na+ channel subunit stoichiometry BIOPHYSICAL JOURNAL, 88 (6): 3966-3975 JUN 2005 |
| Mitchell, CA; Schmidt, S; Booth, RE Examination of intermolecular subunit interactions within the epithelial sodium channel FASEB JOURNAL, 19 (4): A313-A313 Part 1 Suppl. S MAR 4 2005 |
| Staruschenko, A; Adams, E; Booth, RE; et al. Epithelial Na+ channel subunit stoichiometry FASEB JOURNAL, 19 (5): A1176-A1176 Part 2 Suppl. S MAR 7 2005 |
| Staruschenko, A; Adams, E; Medina, JL; et al. Subunit composition of epithelial Na+ channel BIOPHYSICAL JOURNAL, 88 (1): 367A-367A Part 2 Suppl. S JAN 2005 |
| Staruschenko A, Medina JL, Patel P, Shapiro MS, Booth RE, and Stockand JD. Fluorescence resonance energy transfer analysis of subunit stoichiometry of the epithelial Na+ channel. Journal of Biological Chemistry 25;279(26):27729-34, 2004. |
| Tong Q, Booth RE, Worrell RT and Stockand JD. Regulation of Na+ transport by aldosterone: Signaling convergence and cross-talk between the PI3-K and MAPK 1/2 cascades. American Journal Physiology, 286(6):F1232-8, 2004 |
| Booth, RE, Lovell SC, Misquitta SA, and Bateman, Jr RC. Human Glutaminyl Cyclase and Bacterial Zinc Aminopeptidase Share a Common Fold and Active Site. BMC Biology 2(1):2, 2004 |
| Booth RE, Misquitta SA, and Bateman, Jr. RC. Human pituitary glutaminyl cyclase: expression in insect cells and dye affinity purification. Protein Expression and Purification 32:141-146, 2003. |
| Booth RE, Tong Q, Medina J, Snyder PM, Patel P, Stockand JD. A Region Directly Following the Second Transmembrane Domain in gENaC Is Required for Normal Channel Gating. Journal of Biological Chemistry 278(42):41367-41379, 2003. |
| Booth RE and Stockand JD. Targeted Degradation of ENAC in Response to PKC Activation of the ERK1/2 Cascade. American Journal of Physiology 284(5):F938-47, 2003. |
| Hendron E, Patel P, Hausenfluke M, Gamper N, Shapiro MS, Booth RE, and Stockand JD. Identification of Cytoplasmic Domains within ENaC Reactive at the Plasma Membrane. Journal of Biological Chemistry 277(37):34480-88, 2002. |
| Booth RE, Johnson JP, and Stockand JD. Aldosterone. Advances in Physiology Education 26(1):8-20, 2002. |
| Bateman, Jr. RC, Temple JS, Misquitta SA, and Booth RE. Evidence for Essential Histidines in Human Pituitary Glutaminyl Cyclase. Biochemistry 40(37):11246-50, 2001. |
| Wertz DL, Eschette R, Cummings R, Quin J., Martin M., and Dubose S. Potential Uses for the Tire DerivedParticles Produced by the WOMBAT Processing. American Chemical Society, Division Fuel Chemistry 42:741-742, 1997. |
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