D015221Chemicals & DrugsD12.776.157.530.400.600D12.776.543.550.450.750D12.776.543.585.400.75012440.979795Potassium ChannelsFaculty Rankprns:fullNamefull nameprns:hasAuthorListauthor listprns:hasFacultyRankhas faculty rankprns:hasNetworkhas networkprns:hasPublicationVenuepublished inprns:informationResourceReferenceinformation resource referenceprns:isPrimaryPositionis primary positionprns:latitudelatitudeprns:longitudelongitudeprns:mainImagephotoprns:maxWeightmaximum weightprns:medlineTAjournal title abbreviationprns:meshDescriptorUIMeSH DescriptorUIprns:meshSemanticGroupNameMeSH semantic group nameprns:meshTreeNumberMeSH tree numberprns:minWeightminimum weightprns:numberOfAuthorsnumber of authorsprns:numberOfConnectionsnumber of connectionsprns:numberOfPublicationsnumber of publicationsprns:personIdPerson IDprns:personInPrimaryPositionperson in primary positionprns:positionInDepartmentposition in departmentprns:positionInDivisionposition in divisionprns:predicateNodepredicate nodeprns:publicationDatepublication dateprns:sortOrdersort orderprns:uniquenessWeightuniqueness weightprns:yearyearAcademic ArticleArticleDocumentbibo:pmidPubMed IdentifierDepartmentDivisionvivo:hrJobTitleHR job titleInformation Resourcevivo:orcidIdORCID idPositionvivo:positionInOrganizationposition in organizationvivo:preferredTitlepreferred titlevivo:researchAreaOfresearch area ofvivo:subjectAreaForsubject area forrdf:predicatepredicaterdf:typetyperdfs:labellabelConceptAgentfoaf:firstNamefirst namefoaf:lastNamelast nameOrganizationPerson30295919Dave S, Chen L, Yu C, Seaton M, Khodr CE, Al-Harthi L, Hu XTJournal of neurochemistryMethamphetamine decreases K+ channel function in human fetal astrocytes by activating the trace amine-associated receptor type-1. J Neurochem. 2019 01; 148(1):29-45.J Neurochem2018-11-19T00:00:002018Methamphetamine decreases K+ channel function in human fetal astrocytes by activating the trace amine-associated receptor type-1.DanielNicholsonDaniel Nicholson349038Nicholson, DanielAssistant Professor23324324Dougherty KA, Nicholson DA, Diaz L, Buss EW, Neuman KM, Chetkovich DM, Johnston DJournal of neurophysiologyDifferential expression of HCN subunits alters voltage-dependent gating of h-channels in CA1 pyramidal neurons from dorsal and ventral hippocampus. J Neurophysiol. 2013 Apr; 109(7):1940-53.J Neurophysiol2013-01-16T00:00:002013Differential expression of HCN subunits alters voltage-dependent gating of h-channels in CA1 pyramidal neurons from dorsal and ventral hippocampus.22363812Wilkars W, Liu Z, Lewis AS, Stoub TR, Ramos EM, Brandt N, Nicholson DA, Chetkovich DM, Bender RAPloS oneRegulation of axonal HCN1 trafficking in perforant path involves expression of specific TRIP8b isoforms. PLoS One. 2012; 7(2):e32181.PLoS One2012-02-21T00:00:002012Regulation of axonal HCN1 trafficking in perforant path involves expression of specific TRIP8b isoforms.true1Assistant ProfessorAssistant Professor1.387380.11807612research area of0.6897770.023086237subject area forXiu-TiHuXiu-ti Hu349111Hu, Xiu-TiProfessorThomasDeCourseyThomas DeCoursey41.87432800000000-87.67059170000000349235DeCoursey, ThomasProfessorBobEisenbergBob Eisenberg41.87432800000000-87.67059170000000349256Eisenberg, Bob0000-0002-4860-5434ProfessorGiedriusKanaporisGiedrius Kanaporis41.87432800000000-87.67059170000000349614Kanaporis, GiedriusAssistant Professor6Assistant Professor4Professortrue1ProfessorProfessor21593326Lewis AS, Vaidya SP, Blaiss CA, Liu Z, Stoub TR, Brager DH, Chen X, Bender RA, Estep CM, Popov AB, Kang CE, Van Veldhoven PP, Bayliss DA, Nicholson DA, Powell CM, Johnston D, Chetkovich DMThe Journal of neuroscience : the official journal of the Society for NeuroscienceDeletion of the hyperpolarization-activated cyclic nucleotide-gated channel auxiliary subunit TRIP8b impairs hippocampal Ih localization and function and promotes antidepressant behavior in mice. J Neurosci. 2011 May 18; 31(20):7424-40.J Neurosci2011-05-18T00:00:002011Deletion of the hyperpolarization-activated cyclic nucleotide-gated channel auxiliary subunit TRIP8b impairs hippocampal Ih localization and function and promotes antidepressant behavior in mice.Neurological SciencesRush University, Rush Medical Collegetrue1Assistant ProfessorAssistant Professortrue1ProfessorProfessortrue1ProfessorProfessorPhysiology and Biophysics16885524Perez MF, White FJ, Hu XTJournal of neurophysiologyDopamine D(2) receptor modulation of K(+) channel activity regulates excitability of nucleus accumbens neurons at different membrane potentials. J Neurophysiol. 2006 Nov; 96(5):2217-28.J Neurophysiol2006-08-02T00:00:002006Dopamine D(2) receptor modulation of K(+) channel activity regulates excitability of nucleus accumbens neurons at different membrane potentials.Microbial Pathogens and Immunity