Mitochondrial and Plasma Membrane Citrate Transporters: Discovery of Selective Inhibitors and Application to Structure/Function Analysis. J. Sun, S. Aluvila, R. Kotaria, J.A. Mayor, D.E. Walters, and R.S. Kaplan, Mol. Cell. Pharmacol. 2:101-110 (2010). [PubMed] [email reprint request]
The yeast mitochondrial citrate transport protein: molecular determinants of its substrate specificity. S. Aluvila, J. Sun, J.A. Mayor, R. Kotaria, D.E. Walters, D.H.T. Harrison, and R.S. Kaplan. J. Biol. Chem. 285:27314-27326 (2010). [PubMed] [email reprint request]
Probing the Effect of Transport Inhibitors on the Conformation of the Mitochondrial Citrate Transport Protein via a Site-Directed Spin Labeling Approach. J.A. Mayor, J. Sun, R. Kotaria, D.E. Walters, K.-J. Oh, and R.S. Kaplan. J. Bioenerg. Biomembr., 42:99-109. 2010. [PubMed] [email reprint request]
Synthesis and biological evaluation of novel allophenylnorstatine-based HIV-1 protease inhibitors incorporating high affinity P2-ligands. A.K. Ghosh, S. Gemma, E. Simoni, A. Baldridge, D.E. Walters, K. Ide, Y. Tojo, Y. Koh, M. Amano, and H. Mitsuya. Bioorg. Med. Chem. Lett., 20, 1241-1246. 2010. [PubMed] [email reprint request]
Ion Selectivity of α-Hemolysin with β-Cyclodextrin Adapter: I. Single Ion Potential of Mean Force and Diffusion Coefficient. Y. Luo, B. Egwolf, D.E. Walters, and B. Roux. J. Phys. Chem. B, 114, 952-958. 2010. [PubMed] [email reprint request]
Ion Selectivity of α-Hemolysin with β-Cyclodextrin Adapter: II. Multi-Ion Effects Studied with Grand Canonical Monte Carlo/Brownian Dynamics Simulations. B. Egwolf, Y. Luo, D.E. Walters, and B. Roux. J. Phys. Chem. B, 114, 2901-2909. 2010. [PubMed] [email reprint request]
Inhibitors of the Mitochondrial Citrate Transport Protein: Validation of the Role of Substrate Binding Residues and Discovery of the First Purely Competitive Inhibitor. S. Aluvila, J. Sun, D.H.T. Harrison, D.E. Walters, and R.S. Kaplan. Mol. Pharmacol. 77, 26-34. 2010. [PubMed] [email reprint request]
Design and evaluation of new analogs of the sweet protein brazzein. D.E. Walters, T. Cragin, Z. Jin, J.N. Rumbley, and G. Hellekant. Chem. Senses 34, 679-683. 2009. [PubMed] [email reprint request]
An inter-subunit salt bridge near the selectivity filter stabilizes the active state of Kir1.1. H. Sackin, M. Nanazashvili, H. Li, L.G. Palmer, and D.E. Walters. Biophys. J. 97, 1058 - 1066, 2009. [PubMed] [email reprint request]
Molecular dynamics study of a polymeric reverse osmosis membrane. E. Harder, D.E. Walters, Y.D. Bodnar, R.S. Faibish, and B. Roux. J. Phys. Chem. B 113, 10177-10182, 2009. [PubMed] [email reprint request]
The yeast mitochondrial citrate transport protein: identification of the lysine residues responsible for inhibition mediated by Pyridoxal 5'-phosphate. S. Remani, J. Sun, R. Kotaria, J.A. Mayor, J.M. Brownlee, D.H.T. Harrison, D.E. Walters, and R.S. Kaplan. J. Bioenerg. Biomembr. 40, 577-585, 2008. [PubMed] [email reprint request]
Introduction of The Chloroplast Redox Regulatory Region In the Yeast ATP Synthase Impairs Cytochrome c Oxidase. H. Shen, D.E. Walters, and D.M. Mueller. J. Biol. Chem. 283, 32937-32943, 2008. [PubMed] [email reprint request]