Merritt Maduke
Affiliations: | Stanford University, Palo Alto, CA |
Area:
Molecular & Cellular PhysiologyGoogle:
"Merritt Maduke"Mean distance: 35622
Children
Sign in to add traineeAnita M. Engh | grad student | 2006 | Stanford |
Gilbert Martinez | grad student | 2008 | Stanford |
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Publications
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Prieto ML, Maduke M. (2024) Towards an ion-channel-centric approach to ultrasound neuromodulation. Current Opinion in Behavioral Sciences. 56 |
Xu M, Neelands T, Powers AS, et al. (2024) CryoEM structures of the human CLC-2 voltage-gated chloride channel reveal a ball-and-chain gating mechanism. Elife. 12 |
Xu M, Neelands T, Powers AS, et al. (2023) CryoEM structures of the human CLC-2 voltage gated chloride channel reveal a ball and chain gating mechanism. Biorxiv : the Preprint Server For Biology |
Koster AK, Reese AL, Kuryshev Y, et al. (2020) Development and validation of a potent and specific inhibitor for the CLC-2 chloride channel. Proceedings of the National Academy of Sciences of the United States of America |
Lahey LJ, Mardjuki RE, Wen X, et al. (2020) LRRC8A:C/E Heteromeric Channels Are Ubiquitous Transporters of cGAMP. Molecular Cell |
Cheng RC, Maduke M. (2020) Expanding the membrane-protein NMR toolkit. Nature Chemical Biology |
McKiernan KA, Koster AK, Maduke M, et al. (2020) Dynamical model of the CLC-2 ion channel reveals conformational changes associated with selectivity-filter gating. Plos Computational Biology. 16: e1007530 |
Chavan TS, Cheng RC, Jiang T, et al. (2020) Author response: A CLC-ec1 mutant reveals global conformational change and suggests a unifying mechanism for the CLC Cl–/H+ transport cycle Elife |
Chavan T, Cheng R, Jiang T, et al. (2020) Investigating Conformational Changes to Understand the Transport Mechanism of CLC Chloride/Proton Antiporters Biophysical Journal. 118: 443a |
Maduke M, Delemotte L. (2019) Decision letter: Structure and physiological function of the human KCNQ1 channel voltage sensor intermediate state Elife |