| Copper induces cell death by targeting lipoylated TCA cycle proteins P Tsvetkov, S Coy, B Petrova, M Dreishpoon, A Verma, M Abdusamad, ... Science 375 (6586), 1254-1261, 2022 | 2099 | 2022 |
| Mechanism of calcium gating in small-conductance calcium-activated potassium channels XM Xia, B Fakler, A Rivard, G Wayman, T Johnson-Pais, JE Keen, T Ishii, ... Nature 395 (6701), 503-507, 1998 | 1090 | 1998 |
| Function and regulation of human copper-transporting ATPases S Lutsenko, NL Barnes, MY Bartee, OY Dmitriev Physiological reviews 87 (3), 1011-1046, 2007 | 924 | 2007 |
| Wilson disease A Członkowska, T Litwin, P Dusek, P Ferenci, S Lutsenko, V Medici, ... Nature reviews Disease primers 4 (1), 21, 2018 | 716 | 2018 |
| Connecting copper and cancer: from transition metal signalling to metalloplasia EJ Ge, AI Bush, A Casini, PA Cobine, JR Cross, GM DeNicola, QP Dou, ... Nature Reviews Cancer 22 (2), 102-113, 2022 | 703 | 2022 |
| Organization of P-type ATPases: significance of structural diversity S Lutsenko, JH Kaplan Biochemistry 34 (48), 15607-15613, 1995 | 614 | 1995 |
| Human copper homeostasis: a network of interconnected pathways S Lutsenko Current opinion in chemical biology 14 (2), 211-217, 2010 | 489 | 2010 |
| Identification and analysis of mutations in the Wilson disease gene (ATP7B): population frequencies, genotype-phenotype correlation, and functional analyses AB Shah, I Chernov, HT Zhang, BM Ross, K Das, S Lutsenko, E Parano, ... The American Journal of Human Genetics 61 (2), 317-328, 1997 | 459 | 1997 |
| Characterization of the Wilson disease gene encoding a P-type copper transporting ATPase: genomic organization, alternative splicing, and structure/function predictions K Petrukhin, S Lutsenko, I Chernov, BM Ross, JH Kaplan, TC Gilliam Human Molecular Genetics 3 (9), 1647-1656, 1994 | 427 | 1994 |
| Human copper transporters: mechanism, role in human diseases and therapeutic potential A Gupta, S Lutsenko Future medicinal chemistry 1 (6), 1125-1142, 2009 | 319 | 2009 |
| N-terminal domains of human copper-transporting adenosine triphosphatases (the Wilson's and Menkes disease proteins) bind copper selectively in vivo and in vitro with … S Lutsenko, K Petrukhin, MJ Cooper, CT Gilliam, JH Kaplan Journal of Biological Chemistry 272 (30), 18939-18944, 1997 | 316 | 1997 |
| High copper selectively alters lipid metabolism and cell cycle machinery in the mouse model of Wilson disease D Huster, TD Purnat, JL Burkhead, M Ralle, O Fiehn, F Stuckert, NE Olson, ... Journal of Biological Chemistry 282 (11), 8343-8355, 2007 | 263 | 2007 |
| Function and regulation of the mammalian copper-transporting ATPases: insights from biochemical and cell biological approaches S Lutsenko, MJ Petris The Journal of membrane biology 191, 1-12, 2003 | 257 | 2003 |
| Cellular multitasking: the dual role of human Cu-ATPases in cofactor delivery and intracellular copper balance S Lutsenko, A Gupta, JL Burkhead, V Zuzel Archives of biochemistry and biophysics 476 (1), 22-32, 2008 | 245 | 2008 |
| Copper handling machinery of the brain S Lutsenko, A Bhattacharjee, AL Hubbard Metallomics 2 (9), 596-608, 2010 | 242 | 2010 |
| Null mutation of the murine ATP7B (Wilson disease) gene results in intracellular copper accumulation and late-onset hepatic nodular transformation OI Buiakova, J Xu, S Lutsenko, S Zeitlin, K Das, S Das, BM Ross, ... Human molecular genetics 8 (9), 1665-1671, 1999 | 235 | 1999 |
| The copper-transporting ATPases, Menkes and Wilson disease proteins, have distinct roles in adult and developing cerebellum N Barnes, R Tsivkovskii, N Tsivkovskaia, S Lutsenko Journal of Biological Chemistry 280 (10), 9640-9645, 2005 | 230 | 2005 |
| Consequences of copper accumulation in the livers of the Atp7b−/−(Wilson disease gene) knockout mice D Huster, MJ Finegold, CT Morgan, JL Burkhead, R Nixon, ... The American journal of pathology 168 (2), 423-434, 2006 | 229 | 2006 |
| Near-infrared fluorescent sensor for in vivo copper imaging in a murine Wilson disease model T Hirayama, GC Van de Bittner, LW Gray, S Lutsenko, CJ Chang Proceedings of the National Academy of Sciences 109 (7), 2228-2233, 2012 | 214 | 2012 |
| An essential role for the extracellular domain of the sodium-potassium-ATPase. beta.-subunit in cation occlusion S Lutsenko, JH Kaplan Biochemistry 32 (26), 6737-6743, 1993 | 209 | 1993 |
