000043897 001__ 43897 000043897 005__ 20241011130630.0 000043897 0247_ $$2doi$$a10.6083/bpxhc43897 000043897 037__ $$aETD 000043897 041__ $$aeng 000043897 245__ $$aStructural characterization of δβγ epithelial sodium channels provide insight into channel assembly 000043897 260__ $$bOregon Health and Science University 000043897 269__ $$a2024-10-10 000043897 336__ $$aDissertation 000043897 502__ $$bPh.D. 000043897 502__ $$gNeuroscience 000043897 520__ $$aWhen thinking of sodium channels in the nervous system the most notable are voltage gated sodium channels, but a multitude of non-voltage gated channels also contribute to sodium homeostasis in the brain. One of these lesser studied sodium channels in the nervous system is the Epithelial Sodium Channel (ENaC). 000043897 540__ $$fNo License 000043897 542__ $$fPublic domain 000043897 650__ $$aEpithelial Sodium Channels$$037426 000043897 650__ $$aIon Channels$$021013 000043897 650__ $$aBrain$$015788 000043897 650__ $$aCryoelectron Microscopy$$032293 000043897 6531_ $$aENaC 000043897 6531_ $$asodium homeostasis 000043897 691__ $$aSchool of Medicine$$041369 000043897 692__ $$aVollum Institute$$041509 000043897 7001_ $$aHouser, Alexandra$$uOregon Health and Science University$$041354$$10000-0001-5516-6225 000043897 8564_ $$966e50438-6357-4cda-926e-332ef2d36019$$s21405024$$uhttps://digitalcollections.ohsu.edu/record/43897/files/Houser.Alexandra.2024.pdf 000043897 909CO $$ooai:digitalcollections.ohsu.edu:43897$$pstudent-work 000043897 980__ $$aTheses and Dissertations 000043897 981__ $$aPublished$$b2024-10-10