Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia

Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia

Bibliographic Details
Main Authors: Hamm Thomas M, Venugopal Sharmila, Jung Ranu
Format: Article
Language:English
Published: BMC 2010-07-01
Series:BMC Neuroscience
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spelling doaj-644aea1047fd40a4bcfffcd2a11ec6bb2020-11-25T02:11:46ZengBMCBMC Neuroscience1471-22022010-07-0111Suppl 1P15810.1186/1471-2202-11-S1-P158Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexiaHamm Thomas MVenugopal SharmilaJung Ranu
collection DOAJ
language English
format Article
sources DOAJ
author Hamm Thomas M
Venugopal Sharmila
Jung Ranu
spellingShingle Hamm Thomas M
Venugopal Sharmila
Jung Ranu
Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
BMC Neuroscience
author_facet Hamm Thomas M
Venugopal Sharmila
Jung Ranu
author_sort Hamm Thomas M
title Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
title_short Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
title_full Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
title_fullStr Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
title_full_unstemmed Role of low and high-voltage activated Ca2+-dependent K+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
title_sort role of low and high-voltage activated ca2+-dependent k+ currents in the control of alpha-motoneuron discharge and its implication in hyperreflexia
publisher BMC
series BMC Neuroscience
issn 1471-2202
publishDate 2010-07-01
work_keys_str_mv AT hammthomasm roleoflowandhighvoltageactivatedca2dependentkcurrentsinthecontrolofalphamotoneurondischargeanditsimplicationinhyperreflexia
AT venugopalsharmila roleoflowandhighvoltageactivatedca2dependentkcurrentsinthecontrolofalphamotoneurondischargeanditsimplicationinhyperreflexia
AT jungranu roleoflowandhighvoltageactivatedca2dependentkcurrentsinthecontrolofalphamotoneurondischargeanditsimplicationinhyperreflexia
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