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Wang, K. W. and S. A. N. Goldstein. 1995. Subunit composition of minK potassium channels. Neuron. 14:1303-9.
Ketchum, K. A., W. J. Joiner, A. J. Sellers, L. K. Kaczmarek and S. A. N. Goldstein. 1995. A new family of outwardly rectifying potassium channel proteins with two pore domains in tandem. Nature. 376:690-5.
Wang, K. W., K-K. Tai and S. A. N. Goldstein. 1996. MinK residues line a potassium channel pore. Neuron. 16:571-7.
Goldstein, S. A. N. 1996. A structural vignette common to voltage sensors and conduction pores: canaliculi. Neuron. 16:717-22.
Goldstein, S. A. N., L. A. Price, D.N. Rosenthal and M. H. Pausch. 1996. ORK1, a potassium-selective leak channel with two pore domains cloned from Drosophila melanogaster by expression in Saccharomyces cerevisiae. Proc. Natl. Acad. Sci. USA. 93:13256-61.
McDonald, T. V., Z. Yu. Z. Ming, E. Palma, M. B. Meyers, K. W. Wang, S.A.N. Goldstein and G. I. Fishman. 1997. A minK-HERG complex regulates the cardiac potassium current IKs. Nature. 388:289-292.
Goldstein, S. A. N., K.-W. Wang, N. Ilan and M. H. Pausch. 1998. Sequence and function of the two P domain potassium channels: implications of an emerging superfamily. J. Molec. Med. 76:13-20.
Tai, K. K. and S. A. N. Goldstein. 1998. The conduction pore of a cardiac potassium channel. Nature. 391:605-8.
Sesti, F. and S. A. N. Goldstein. 1998. Single-channel characteristics of wildtype IKs channels and channels formed with two minK mutants that cause long QT syndrome. J. Gen Phys. 112:65-64.
Abbott, G. W., F. Sesti, I. Splawski, M. E. Buck, M. H. Lehmann, K. W. Timothy, M. T. Keating and S. A. N. Goldstein. 1999. MiRP1 forms IKr potassium channels with HERG and is associated with cardiac arrhythmia. Cell. 97:175-187.
Ahmed, A., F. Sesti, N. Ilan, T. M. Shih, S. L. Sturley and S. A. N. Goldstein. 1999. A molecular target for viral killer toxin: TOK1 potassium channels. Cell. 99:283-291.
Lopes, C. M. B., Gallagher, P. G., Buck, M. E., Butler, M. H. and S. A. N. Goldstein. 2000. Proton block and voltage-gating are potassium-dependent in the cardiac leak channel Kcnk3. J. Biol. Chem. 275:18969-78.
Sesti, F., Tai, K. K. and S. A. N.Goldstein. 2000. MinK endows the IKs potassium channel pore with sensitivity to internal TEA. .Biophys. J. 79: 1369-1378.
Sesti, F., Abbott, G. W., Wei, J., Murray, K. T., Saksena, S., Schwartz, P. J., Priori S. G., Roden, D. M., George Jr., A. L. and S. A. N. Goldstein. 2000. A common polymorphism associated with antibiotic-induced cardiac arrhythmia. Proc. Natl. Acad. Sci. USA. 10613-10618.
Zilberberg, N., Ilan, N., Gonzalez-Colaso, R. and S. A. N. Goldstein. 2000. Opening and closing of KCNKØ potassium leak channels is tightly-regulated. J. Gen. Physiol. 116:721-734.
Ilan, N. and S. A. N. Goldstein. 2001. KCNKØ: single, cloned potassium leak channels are multi-ion pores. Biophys. J. 80:241-253.
Abbott, G. W., Butler, M. H., Bendahhou, S., Dalakas, M. C., Ptacek, L. J., and S. A. N. Goldstein. 2001. MiRP2 forms potassium channels in skeletal muscle with Kv3.4 and is associated with periodic paralysis. Cell. 104:217-231.
Goldstein.,S. A. N., Bockenhauer, D., O'Kelly, I. and N. Zilberberg 2001. Potassium leak channels and the KCNK family of two-P-domain subunits. Nature Rev Neurosci. 2:175-184.
Bockenhauer, D., Zilberberg, N. and S. A. N. Goldstein. 2001. Reversible conversion of a hippocampal potassium leak into a voltage-dependent channel by phosphorylation. Nature Neurosci. 4:486-491.
Sesti, F., Shih, T.S., Nikolaeva, N. and S. A. N. Goldstein. 2001. Immunity to K1 killer toxin: internal TOK1 blockade. Cell. 105:637-644.
Coeli M. B. Lopes, Noam Zilberberg and S. A. N. Goldstein. 2001. Block of Kcnk3 by protons: evidence that 2-P-domain potassium channel subunits function as homodimers. J Biol Chem. 276:24449-24452.
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