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    1.Small molecule inhibits KCNQ channels with a non-blocking mechanism

    Li, JN, Yang, ZN, Zh     More...

    NATURE CHEMICAL BIOLOGY[1552-4450], Published 2025,

    收錄情况: WOS SCOPUS

    WOS核心合集引用:  2024影響因子:  13.7 

    2.Secondary structure transitions and dual PIP2 binding define cardiac KCNQ1-KCNE1 channel gating

    Zhong, L, Lin, XQ, C     More...

    CELL RESEARCH[1001-0602], Published 2025, Volume 35, Issue 11, Pages 887-899

    收錄情况: WOS SCOPUS

    WOS核心合集引用:  2024影響因子:  25.9 

    3.A small-molecule activation mechanism that directly opens the KCNQ2 channel

    Zhang, SY, Ma, DM, W     More...

    NATURE CHEMICAL BIOLOGY[1552-4450], Published 2024,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 22  2024影響因子:  13.7  发表年影響因子:  13.7 

    4.Targeting the IKs Channel PKA Phosphorylation Axis to Restore Its Function in High-Risk LQT1 Variants

    Zhong, Ling, Yan, Zh     More...

    Circulation Research[0009-7330], Published 2024, Volume 135, Issue 7, Pages 722-738

    收錄情况: WOS SCOPUS

    WOS核心合集引用:  2024影響因子:  16.2  发表年影響因子:  16.2 

    5.The fully activated open state of KCNQ1 controls the cardiac "fight-or-flight" response

    Hou, PP, Zhao, L, Zh     More...

    PNAS NEXUS[2752-6542], Published 2024, Volume 3, Issue 10,

    收錄情况: WOS SCOPUS

    WOS核心合集引用:  2024影響因子:  3.8  发表年影響因子:  3.8 

    6.Chinese herbal medicine for the treatment of cardiovascular diseases - Targeting cardiac ion channels

    Yan, ZZ, Zhong, L, Z     More...

    PHARMACOLOGICAL RESEARCH[1043-6618], Published 2023, Volume 192,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 16  2024影響因子:  10.5  发表年影響因子:  9.1 

    7.Ligand activation mechanisms of human KCNQ2 channel

    Ma, Demin, Zheng, Yu     More...

    Nature Communications[2041-1723], Published 2023, Volume 14, Issue 1,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 29  2024影響因子:  15.7  发表年影響因子:  14.7 

    8.Structural mechanisms for the activation of human cardiac KCNQ1 channel by electro-mechanical coupling enhancers

    Ma, DM, Zhong, L, Ya     More...

    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA[0027-8424], Published 2022, Volume 119, Issue 45,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 27  2024影響因子:  9.1  发表年影響因子:  11.1 

    9.Editorial: Ion Channels: Therapeutic Targets for Neurological Disease

    Hou, PP, Du, XN, An,     More...

    FRONTIERS IN MOLECULAR NEUROSCIENCE[1662-5099], Published 2021, Volume 14,

    收錄情况: WOS SCOPUS

    WOS核心合集引用:  2024影響因子:  3.8  发表年影響因子:  6.261 

    10.A PIP2 substitute mediates voltage sensor-pore coupling in KCNQ activation

    Liu, YF, Xu, XJ, Gao     More...

    COMMUNICATIONS BIOLOGY[2399-3642], Published 2020, Volume 3, Issue 1,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 29  2024影響因子:  5.1  发表年影響因子:  6.268 

    11.Structure and physiological function of the human KCNQ1 channel voltage sensor intermediate state

    Taylor, KC, Kang, PW     More...

    ELIFE[2050-084X], Published 2020, Volume 9,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 38  2024影響因子:  N/A  发表年影響因子:  8.146 

    12.Two-stage "Hand-and-Elbow" Gating Mechanism of a K-V Channel

    Hou, PP, Kang, PW, K     More...

    BIOPHYSICAL JOURNAL[0006-3495], Published 2020, Volume 118, Issue 3, Pages 113A-113A

    收錄情况: WOS

    WOS核心合集引用:  2024影響因子:  3.1  发表年影響因子:  4.033 

    13.Gating Mechanisms of Cardiac and Neuronal KCNQ Potassium Channels

    Yang, ND, Dou, A, Ka     More...

    BIOPHYSICAL JOURNAL[0006-3495], Published 2020, Volume 118, Issue 3, Pages 264A-264A

    收錄情况: WOS

    WOS核心合集引用:  2024影響因子:  3.1  发表年影響因子:  4.033 

    14.Structure and Physiological Function of the KCNQ1 Channel Voltage Sensor Intermediate State

    Sanders, CR, Taylor,     More...

    BIOPHYSICAL JOURNAL[0006-3495], Published 2020, Volume 118, Issue 3, Pages 333A-333A

    收錄情况: WOS

    WOS核心合集引用:  2024影響因子:  3.1  发表年影響因子:  4.033 

    15.Two-stage electro-mechanical coupling of a K-V channel in voltage-dependent activation

    Hou, P, Kang, PW, Ko     More...

    NATURE COMMUNICATIONS[2041-1723], Published 2020, Volume 11, Issue 1,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 46  2024影響因子:  15.7  发表年影響因子:  14.919 

    16.ML277 specifically enhances the fully activated open state of KCNQ1 by modulating VSD-pore coupling

    Hou, PP, Shi, JY, Wh     More...

    ELIFE[2050-084X], Published 2019, Volume 8,

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 28  2024影響因子:  N/A  发表年影響因子:  7.080 

    17.A Non-Canonical VSD-Pore Coupling in KCNQ Channels

    Hou, PP, Shi, JY, Cu     More...

    BIOPHYSICAL JOURNAL[0006-3495], Published 2019, Volume 116, Issue 3, Pages 303A-303A

    收錄情况: WOS

    WOS核心合集引用:  2024影響因子:  3.1  发表年影響因子:  3.854 

    18.CP1 Is a Potent I-Ks Channel Activator Which Acts by Substituting Phosphatidylinositol 4,5 Bisphosphate

    Liu, YF, Xu, XJ, Naf     More...

    BIOPHYSICAL JOURNAL[0006-3495], Published 2019, Volume 116, Issue 3, Pages 542A-543A

    收錄情况: WOS

    WOS核心合集引用:  2024影響因子:  3.1  发表年影響因子:  3.854 

    19.Structure of the Intermediate State of the Human KCNQ1 Channel Voltage-Sensor Domain

    Taylor, KC, Kang, PW     More...

    BIOPHYSICAL JOURNAL[0006-3495], Published 2019, Volume 116, Issue 3, Pages 542A-542A

    收錄情况: WOS

    WOS核心合集引用:  2024影響因子:  3.1  发表年影響因子:  3.854 

    20.Predicting Patient Response to the Antiarrhythmic Mexiletine Based on Genetic Variation Personalized Medicine for Long QT Syndrome

    Zhu, WD, Mazzanti, A     More...

    CIRCULATION RESEARCH[0009-7330], Published 2019, Volume 124, Issue 4, Pages 539-552

    收錄情况: WOS SCOPUS

    WOS核心合集引用: 45  2024影響因子:  16.2  发表年影響因子:  14.467 

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