000007845 001__ 7845
000007845 005__ 20251027125413.0
000007845 0247_ $$2DOI$$a10.6083/M43777TG
000007845 037__ $$aETD
000007845 245__ $$aSynaptic localization of SK channels
000007845 260__ $$bOregon Health and Science University
000007845 269__ $$a2016
000007845 336__ $$aDissertation
000007845 502__ $$bPh.D.
000007845 502__ $$gNeuroscience
000007845 520__ $$aInformation flow in the CNS is mediated by chemical synapses that translate  electrical signals through neurotransmitter release at presynaptic terminals, and  convert back into electrical signals generated by postsynaptic receptors in the  postsynaptic neuron. These synaptic signals are transmitted and integrated to  the cell body and axon initial segment, where action potentials are generated  when the threshold is reached. In addition, they can alter the efficiency of  synaptic transmission, ‘synaptic plasticity’, that is the cellular basis of information  processing and storage.
000007845 542__ $$fIn copyright - single owner
000007845 650__ $$aPotassium Channels$$028230
000007845 650__ $$aIon Channels$$021013
000007845 650__ $$aReceptors, N-Methyl-D-Aspartate$$028954
000007845 650__ $$aReceptors, AMPA$$030497
000007845 691__ $$aSchool of Medicine$$041369
000007845 692__ $$aVollum Institute$$041509
000007845 7001_ $$aKim, Gukhan$$uOregon Health and Science University$$041354$$10000-0002-3338-5045
000007845 7201_ $$aAdelman, John$$uOregon Health and Science University$$041354$$7Personal$$eAdvisor
000007845 8564_ $$9bc16c815-f3ab-4a70-9ca4-a10342a82320$$s1989922$$uhttps://digitalcollections.ohsu.edu/record/7845/files/kim.gukhan.2016.pdf$$ePublic$$23f46b04cb2f2ce50d4834f06f63120c6$$31
000007845 905__ $$a/rest/prod/3n/20/3z/69/3n203z69v
000007845 909CO $$ooai:digitalcollections.ohsu.edu:7845$$pstudent-work
000007845 980__ $$aTheses and Dissertations