Search Results - "O'Reilly, John P." :: K.UTB vyhledávací portál

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Time- and state-dependent effects of methanethiosulfonate ethylammonium (MTSEA) exposure differ between heart and skeletal muscle voltage-gated Na+ channels

by O'Reilly, John P., Shockett, Penny E.
Published in Biochimica et biophysica acta (01.03.2012)

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Relative resistance to slow inactivation of human cardiac Na+ channel hNav1.5 is reversed by lysine or glutamine substitution at V930 in D2-S6

by Chancey, Jessica Hotard, Shockett, Penny E, O'Reilly, John P
Published in American Journal of Physiology: Cell Physiology (01.12.2007)

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Substituted cysteine scanning in D1-S6 of the sodium channel hNav1.4 alters kinetics and structural interactions of slow inactivation

by Beard, Jonathan M., Shockett, Penny E., O'Reilly, John P.
Published in Biochimica et biophysica acta. Biomembranes (01.02.2020)

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Slow-inactivation induced conformational change in domain 2-segment 6 of cardiac Na + channel

by O’Reilly, John P., Shockett, Penny E.
Published in Biochemical and biophysical research communications (23.06.2006)

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Comparison of slow inactivation in human heart and rat skeletal muscle Na+ channel chimaeras

by O'Reilly, John P., Wang, Sho‐Ya, Kallen, Roland G., Wang, Ging Kuo
Published in The Journal of physiology (15.02.1999)

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A Point Mutation in Domain 4-Segment 6 of the Skeletal Muscle Sodium Channel Produces an Atypical Inactivation State

by O’Reilly, John P., Wang, Sho-Ya, Wang, Ging Kuo
Published in Biophysical journal (01.02.2000)

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Increased neuronal excitability after long-term O2 deprivation is mediated mainly by sodium channels

by YING XIA, FUNG, M.-L, O'REILLY, J. P, HADDAD, G. G
Published in Brain research. Molecular brain research. (01.03.2000)

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Residue-Specific Effects on Slow Inactivation at V787 in D2-S6 of Nav1.4 Sodium Channels

by O’Reilly, John P., Wang, Sho-Ya, Wang, Ging Kuo
Published in Biophysical journal (01.10.2001)

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In Search of a Molecular Mechanism for Slow Inactivation in Voltage-Gated Na Channels using the SCAM Technique in D2-S6 of hNav1.4

by O'Reilly, John P., Bokum, Kevin, Beard, Jonathan, Shockett, Penny
Published in Biophysical journal (15.02.2019)

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Using Scam to Investigate Reconfiguration of Molecular Determinants in D1-S6 during Slow Inactivation of hNav1.4

by Beard, Jon M., Shockett, Penny, O'Reilly, John P.
Published in Biophysical journal (15.02.2019)

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Relative resistance to slow inactivation of human cardiac Na + channel hNa v 1.5 is reversed by lysine or glutamine substitution at V930 in D2-S6

by Chancey, Jessica Hotard, Shockett, Penny E., O'Reilly, John P.
Published in American Journal of Physiology: Cell Physiology (01.12.2007)

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Relative resistance to slow inactivation of human cardiac Na+ channel hNa^sub v^1.5 is reversed by lysine or glutamine substitution at V930 in D2-S6

by Chancey, Jessica Hotard, Shockett, Penny E, O'Reilly, John P
Published in American Journal of Physiology: Cell Physiology (01.12.2007)

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Relative resistance to slow inactivation of human cardiac Na+ channel hNav1.5 is reversed by lysine or glutamine substitution at V930 in D2-S6

by HOTARD CHANCEY, Jessica, SHOCKETT, Penny E, O'REILLY, John P
Published in American Journal of Physiology: Cell Physiology (2007)

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Residue-specific effects on slow inactivation at V787 in D2-S6 of Na(v)1.4 sodium channels

by O'Reilly, J P, Wang, S Y, Wang, G K
Published in Biophysical journal (01.10.2001)

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Oxygen deprivation inhibits Na+ current in rat hippocampal neurones via protein kinase C

by O'Reilly, John P., Cummins, Theodore R., Haddad, Gabriel G.
Published in The Journal of physiology (15.09.1997)

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Oxygen deprivation inhibits Na super(+) current in rat hippocampal neurones via protein kinase C

by O'Reilly, John P, Cummins, Theodore R, Haddad, Gabriel G
Published in The Journal of physiology (01.09.1997)

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Major differences in response to graded hypoxia between hypoglossal and neocortical neurons

by O'Reilly, John P., Jiang, Chun, Haddad, Gabriel G.
Published in Brain research (19.06.1995)

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Increased neuronal excitability after long-term O 2 deprivation is mediated mainly by sodium channels

by Xia, Ying, Fung, Man-Lung, O'Reilly, John P, Haddad, Gabriel G
Published in Brain research. Molecular brain research. (29.03.2000)

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Chronic hypoxia in vivo renders neocortical neurons more vulnerable to subsequent acute hypoxic stress

by O'Reilly, John P., Haddad, Gabriel G.
Published in Brain research (04.03.1996)

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Residue-Specific Effects on Slow Inactivation at V787 in D2-S6 of Na v1.4 Sodium Channels

by O’Reilly, John P., Wang, Sho-Ya, Wang, Ging Kuo
Published in Biophysical journal (2001)

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