David T. Yue
Affiliations: | Johns Hopkins University, Baltimore, MD |
Area:
Ion channelsGoogle:
"David Yue"Mean distance: 14.37 (cluster 11) | S | N | B | C | P |
Children
Sign in to add trainee| John Elfar | research assistant | 1994-1996 | Johns Hopkins Medical School |
| Lynn E. Dobrunz | grad student | Johns Hopkins | |
| David L. Brody | grad student | 2000 | Johns Hopkins |
| Lisa P. Jones | grad student | 2000 | Johns Hopkins |
| Michael G. Erickson | grad student | 2003 | Johns Hopkins |
| Heather L. Agler | grad student | 2005 | Johns Hopkins |
| Dipayan Chaudhuri | grad student | 2006 | Johns Hopkins |
| LaiHock Tay | grad student | 2008 | Johns Hopkins |
| Michael R. Tadross | grad student | 2003-2009 | Johns Hopkins |
| Sarah A. Park | grad student | 2012 | Johns Hopkins |
| Philemon S. Yang | grad student | 2013 | Johns Hopkins |
| Paul J. Adams | post-doc | 2011- | Johns Hopkins |
| Xiaodong LIU | post-doc | 2006-2010 | Johns Hopkins |
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Publications
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| Kang PW, Chakouri N, Diaz J, et al. (2021) Elementary mechanisms of calmodulin regulation of Na1.5 producing divergent arrhythmogenic phenotypes. Proceedings of the National Academy of Sciences of the United States of America. 118 |
| Sang L, Vieira DCO, Yue DT, et al. (2021) The molecular basis of the inhibition of Ca1 calcium dependent inactivation by the distal carboxy tail. The Journal of Biological Chemistry. 100502 |
| Limpitikul WB, Viswanathan MC, O'Rourke B, et al. (2019) L-Type Calcium Channels are a Major Source of Plasmalemmel Calcium Influx for Drosophila Cardiomyocytes Biophysical Journal. 116 |
| Bamgboye MA, Traficante M, Yue DT, et al. (2019) Treatment of CaV1.2 Channelopathies May Be Complicated by Altered Channel Inactivation Biophysical Journal. 116 |
| Limpitikul WB, Greenstein JL, Yue DT, et al. (2019) Probing L-Type Channel Calcium-Dependent Inactivation -- a Bilobal Model of Calmodulation Biophysical Journal. 116: 111a |
| Limpitikul WB, Greenstein JL, Yue DT, et al. (2018) A bilobal model of Ca-dependent inactivation to probe the physiology of L-type Ca channels. The Journal of General Physiology |
| Niu J, Dick IE, Yang W, et al. (2018) Allosteric regulators selectively prevent Ca-feedback of Ca and Na channels. Elife. 7 |
| Niu J, Yang W, Yue DT, et al. (2018) Duplex signaling by CaM and Stac3 enhances Ca1.1 function and provides insights into congenital myopathy. The Journal of General Physiology |
| Limpitikul WB, Viswanathan MC, O'Rourke B, et al. (2018) Conservation of cardiac L-type Ca channels and their regulation in Drosophila: A novel genetically-pliable channelopathic model. Journal of Molecular and Cellular Cardiology |
| Banerjee R, Yoder JB, Yue DT, et al. (2018) Bilobal architecture is a requirement for calmodulin signaling to Ca1.3 channels. Proceedings of the National Academy of Sciences of the United States of America |